Worldwide Nanomaterial Database
Single-element Nanoparticles
Currently, there are 1910 single-element nanoparticles in our Nanomaterial Database. Please let us know if we missed a supplier or a product.
Company | Element | APS | Specification |
Alfa Chemistry | EC Number 231-165-9 | ||
Biopharma PEG Scientific Inc. | |||
Biopharma PEG Scientific Inc. | |||
Biopharma PEG Scientific Inc. | |||
Biopharma PEG Scientific Inc. | |||
Biopharma PEG Scientific Inc. | |||
Biopharma PEG Scientific Inc. | |||
Biopharma PEG Scientific Inc. | |||
Biopharma PEG Scientific Inc. | |||
Biopharma PEG Scientific Inc. | |||
Biopharma PEG Scientific Inc. | |||
Biopharma PEG Scientific Inc. | |||
Biopharma PEG Scientific Inc. | |||
Biopharma PEG Scientific Inc. | |||
Biopharma PEG Scientific Inc. | |||
Biopharma PEG Scientific Inc. | |||
Biopharma PEG Scientific Inc. | |||
Biopharma PEG Scientific Inc. | |||
Biopharma PEG Scientific Inc. | |||
CD Bioparticles | |||
CD Bioparticles | |||
CD Bioparticles | |||
CD Bioparticles | |||
CD Bioparticles | |||
CD Bioparticles | |||
CD Bioparticles | |||
CD Bioparticles | |||
CD Bioparticles | |||
CD Bioparticles | |||
CD Bioparticles | |||
CD Bioparticles | |||
CD Bioparticles | |||
CD Bioparticles | |||
CD Bioparticles | |||
CD Bioparticles | |||
CD Bioparticles | |||
CD Bioparticles | |||
CD Bioparticles | |||
CD Bioparticles | |||
CD Bioparticles | |||
CD Bioparticles | |||
CD Bioparticles | |||
CD Bioparticles | |||
CD Bioparticles | |||
CD Bioparticles | |||
CD Bioparticles | |||
CD Bioparticles | |||
CD Bioparticles | |||
CD Bioparticles | |||
CD Bioparticles | |||
CD Bioparticles | |||
CD Bioparticles | |||
CD Bioparticles | |||
CD Bioparticles | |||
CD Bioparticles | |||
CD Bioparticles | |||
CD Bioparticles | |||
CD Bioparticles | |||
CD Bioparticles | |||
CD Bioparticles | |||
CD Bioparticles | |||
CD Bioparticles | |||
CD Bioparticles | |||
CD Bioparticles | |||
CD Bioparticles | |||
CD Bioparticles | |||
CD Bioparticles | |||
CD Bioparticles | |||
CD Bioparticles | |||
CD Bioparticles | |||
CD Bioparticles | |||
CD Bioparticles | |||
CD Bioparticles | |||
CD Bioparticles | |||
CD Bioparticles | |||
CD Bioparticles | |||
CD Bioparticles | |||
CD Bioparticles | |||
CD Bioparticles | |||
CD Bioparticles | |||
CD Bioparticles | |||
CD Bioparticles | |||
CD Bioparticles | |||
CD Bioparticles | |||
CD Bioparticles | |||
CD Bioparticles | |||
CD Bioparticles | |||
CD Bioparticles | |||
CD Bioparticles | |||
CD Bioparticles | |||
CD Bioparticles | |||
CD Bioparticles | |||
CD Bioparticles | |||
CD Bioparticles | |||
CD Bioparticles | |||
CD Bioparticles | |||
CD Bioparticles | |||
CD Bioparticles | |||
CD Bioparticles | |||
CD Bioparticles | |||
CD Bioparticles | |||
CD Bioparticles | |||
CD Bioparticles | |||
CD Bioparticles | |||
CD Bioparticles | |||
CD Bioparticles | |||
CD Bioparticles | |||
CD Bioparticles | |||
CD Bioparticles | |||
CD Bioparticles | |||
CD Bioparticles | |||
CD Bioparticles | |||
CD Bioparticles | |||
CD Bioparticles | |||
CD Bioparticles | |||
CD Bioparticles | |||
CD Bioparticles | |||
CD Bioparticles | |||
CD Bioparticles | |||
CD Bioparticles | |||
CD Bioparticles | |||
CD Bioparticles | |||
CD Bioparticles | |||
CD Bioparticles | |||
CD Bioparticles | |||
CD Bioparticles | |||
CD Bioparticles | |||
CD Bioparticles | |||
CD Bioparticles | |||
CD Bioparticles | |||
CD Bioparticles | |||
CD Bioparticles | |||
CD Bioparticles | |||
CD Bioparticles | |||
CD Bioparticles | |||
CD Bioparticles | |||
CD Bioparticles | |||
CD Bioparticles | |||
CD Bioparticles | |||
CD Bioparticles | |||
CD Bioparticles | |||
CD Bioparticles | |||
CD Bioparticles | |||
CD Bioparticles | |||
CD Bioparticles | |||
CD Bioparticles | |||
CD Bioparticles | |||
CD Bioparticles | |||
CD Bioparticles | |||
CD Bioparticles | |||
CD Bioparticles | |||
CD Bioparticles | |||
CD Bioparticles | |||
CD Bioparticles | |||
CD Bioparticles | |||
CD Bioparticles | |||
CD Bioparticles | |||
CD Bioparticles | |||
CD Bioparticles | |||
CD Bioparticles | |||
CD Bioparticles | |||
CD Bioparticles | |||
CD Bioparticles | |||
CD Bioparticles | |||
CD Bioparticles | |||
CD Bioparticles | |||
CD Bioparticles | |||
CD Bioparticles | |||
CD Bioparticles | |||
CD Bioparticles | |||
CD Bioparticles | |||
CD Bioparticles | |||
CD Bioparticles | |||
CD Bioparticles | |||
CD Bioparticles | |||
CD Bioparticles | |||
CD Bioparticles | |||
CD Bioparticles | |||
CD Bioparticles | |||
CD Bioparticles | |||
CD Bioparticles | |||
CD Bioparticles | |||
CD Bioparticles | |||
CD Bioparticles | |||
CD Bioparticles | |||
CD Bioparticles | |||
CD Bioparticles | |||
CD Bioparticles | |||
CD Bioparticles | |||
CD Bioparticles | |||
CD Bioparticles | |||
CD Bioparticles | |||
CD Bioparticles | |||
CD Bioparticles | |||
CD Bioparticles | |||
CD Bioparticles | |||
CD Bioparticles | |||
CD Bioparticles | |||
CD Bioparticles | |||
CD Bioparticles | |||
CD Bioparticles | |||
CD Bioparticles | |||
CD Bioparticles | |||
CD Bioparticles | |||
CD Bioparticles | |||
CD Bioparticles | |||
CD Bioparticles | |||
CD Bioparticles | |||
CD Bioparticles | |||
CD Bioparticles | |||
CD Bioparticles | |||
CD Bioparticles | |||
CD Bioparticles | |||
CD Bioparticles | |||
CD Bioparticles | |||
CD Bioparticles | |||
CD Bioparticles | |||
CD Bioparticles | |||
CD Bioparticles | |||
CD Bioparticles | |||
CD Bioparticles | |||
CD Bioparticles | |||
CD Bioparticles | |||
CD Bioparticles | |||
CD Bioparticles | |||
CD Bioparticles | |||
CD Bioparticles | |||
CD Bioparticles | |||
CD Bioparticles | |||
CD Bioparticles | |||
CD Bioparticles | |||
CD Bioparticles | |||
CD Bioparticles | |||
CD Bioparticles | |||
CD Bioparticles | |||
CD Bioparticles | |||
CD Bioparticles | |||
CD Bioparticles | |||
CD Bioparticles | |||
CD Bioparticles | |||
CD Bioparticles | |||
CD Bioparticles | |||
CD Bioparticles | |||
CD Bioparticles | |||
CD Bioparticles | |||
CD Bioparticles | |||
CD Bioparticles | |||
CD Bioparticles | |||
CD Bioparticles | |||
CD Bioparticles | |||
CD Bioparticles | |||
CD Bioparticles | |||
Creative Diagnostics | |||
Creative Diagnostics | |||
Creative Diagnostics | |||
Creative Diagnostics | |||
Creative Diagnostics | |||
Creative Diagnostics | |||
Creative Diagnostics | |||
Creative Diagnostics | |||
Creative Diagnostics | |||
Creative Diagnostics | |||
Creative Diagnostics | |||
Creative Diagnostics | |||
Creative Diagnostics | |||
Creative Diagnostics | |||
Creative Diagnostics | |||
Creative Diagnostics | |||
Creative Diagnostics | |||
Creative Diagnostics | |||
Creative Diagnostics | |||
Creative Diagnostics | |||
Creative Diagnostics | |||
Creative Diagnostics | |||
Creative Diagnostics | |||
Creative Diagnostics | |||
Creative Diagnostics | |||
Creative Diagnostics | |||
Creative Diagnostics | |||
Creative Diagnostics | |||
Creative Diagnostics | |||
Creative Diagnostics | |||
Creative Diagnostics | |||
Creative Diagnostics | |||
Creative Diagnostics | |||
Creative Diagnostics | |||
Creative Diagnostics | |||
Creative Diagnostics | |||
Creative Diagnostics | |||
Creative Diagnostics | |||
Creative Diagnostics | |||
Creative Diagnostics | |||
Creative Diagnostics | |||
Creative Diagnostics | |||
Creative Diagnostics | |||
Creative Diagnostics | |||
Creative Diagnostics | |||
Creative Diagnostics | |||
Creative Diagnostics | |||
Creative Diagnostics | |||
Creative Diagnostics | |||
Creative Diagnostics | |||
Creative Diagnostics | |||
Creative Diagnostics | |||
Creative Diagnostics | |||
Creative Diagnostics | |||
Creative Diagnostics | |||
Creative Diagnostics | |||
Creative Diagnostics | |||
Creative Diagnostics | |||
Creative Diagnostics | |||
Creative Diagnostics | |||
Creative Diagnostics | |||
Creative Diagnostics | |||
Creative Diagnostics | |||
Creative Diagnostics | |||
Creative Diagnostics | |||
Creative Diagnostics | |||
Creative Diagnostics | |||
Creative Diagnostics | |||
Creative Diagnostics | |||
Creative Diagnostics | |||
Creative Diagnostics | |||
Creative Diagnostics | |||
Creative Diagnostics | |||
Creative Diagnostics | |||
Creative Diagnostics | |||
Creative Diagnostics | |||
Creative Diagnostics | |||
Creative Diagnostics | |||
Creative Diagnostics | |||
Creative Diagnostics | |||
Creative Diagnostics | |||
Creative Diagnostics | |||
Creative Diagnostics | |||
Creative Diagnostics | |||
Creative Diagnostics | |||
Creative Diagnostics | |||
Creative Diagnostics | |||
Creative Diagnostics | |||
Creative Diagnostics | |||
Creative Diagnostics | |||
Creative Diagnostics | |||
Creative Diagnostics | |||
Creative Diagnostics | |||
Creative Diagnostics | |||
Creative Diagnostics | |||
Creative Diagnostics | |||
Creative Diagnostics | |||
Creative Diagnostics | |||
Creative Diagnostics | |||
Creative Diagnostics | |||
Creative Diagnostics | |||
Creative Diagnostics | |||
Creative Diagnostics | |||
Creative Diagnostics | |||
Creative Diagnostics | |||
Creative Diagnostics | |||
Creative Diagnostics | |||
Creative Diagnostics | |||
Creative Diagnostics | |||
Creative Diagnostics | |||
Creative Diagnostics | |||
Creative Diagnostics | |||
Creative Diagnostics | |||
Creative Diagnostics | |||
Creative Diagnostics | |||
Creative Diagnostics | |||
Creative Diagnostics | |||
Creative Diagnostics | |||
Creative Diagnostics | |||
Creative Diagnostics | |||
Creative Diagnostics | |||
Creative Diagnostics | |||
Creative Diagnostics | |||
Creative Diagnostics | |||
Creative Diagnostics | |||
Creative Diagnostics | |||
Creative Diagnostics | |||
Creative Diagnostics | |||
Creative Diagnostics | |||
Creative Diagnostics | |||
Creative Diagnostics | |||
Creative Diagnostics | |||
Creative Diagnostics | |||
Creative Diagnostics | |||
Creative Diagnostics | |||
Creative Diagnostics | |||
Creative Diagnostics | |||
Creative Diagnostics | |||
Creative Diagnostics | |||
Creative Diagnostics | |||
Creative Diagnostics | |||
Creative Diagnostics | |||
Creative Diagnostics | |||
Creative Diagnostics | |||
Creative Diagnostics | |||
Creative Diagnostics | |||
Creative Diagnostics | |||
Creative Diagnostics | |||
Creative Diagnostics | |||
Creative Diagnostics | |||
Creative Diagnostics | |||
Creative Diagnostics | |||
Creative Diagnostics | |||
Creative Diagnostics | |||
Creative Diagnostics | |||
PRO-1 NANOSolutions | Ag | ||
Phornano holding GmbH | Ag | 10 nm | 0.04 mg/mL |
Nano Technology Inc. | Aluminum | 100nm | Spherical |
IoLiTec | Aluminum | 18nm | P(99.9%) |
SkySpring Nanomaterials, Inc. | Aluminum | 40-60nm | P(99.9%) spherical |
SkySpring Nanomaterials, Inc. | Aluminum | 40-60nm | P(99.9%) spherical |
Applied Nanotech, Inc. | Aluminum | 45nm | P(>99%) |
Applied Nanotech, Inc. | Aluminum | 45nm | P(>99%) |
Malakhit LLC | Aluminum | 50-200 | Spherical |
EPRUI Nanoparticles & Microspheres Co. Ltd | Aluminum | 50nm | P(99.99%); spherical |
EPRUI Nanoparticles & Microspheres Co. Ltd | Aluminum | 50nm | P(99.99%); spherical |
NTbase | Aluminum | 50nm | P(99.99) spherical |
SkySpring Nanomaterials, Inc. | Aluminum | 60nm | P(99.9%) spherical |
SkySpring Nanomaterials, Inc. | Aluminum | 60nm | P(99.9%) spherical |
Inframat Advanced Materials LLC | Aluminum | 80nm | P(99+) |
NovaCentrix | Aluminum | 80nm | |
Edgetech Industries LLC | Aluminum Oxide | 30nm | P(99.9%) alpha |
Phornano holding GmbH | Au | 40 | 0.8 mg/mL |
EPRUI Nanoparticles & Microspheres Co. Ltd | Bismuth | 30-60nm | P>99.5%); spherical |
EPRUI Nanoparticles & Microspheres Co. Ltd | Bismuth | 30-60nm | P>99.5%); spherical |
Specialty Materials | Boron | ||
Specialty Materials | Boron | ||
Carbodeon Ltd Oy | Carbon | P(>27%) Nanodiamond containing powder mixture | |
Green Technology Research Center Inc. | Carbon | ||
ACS Material, LLC | Carbon | 10nm | Graphite; detonation; spherical |
ACS Material, LLC | Carbon | 10nm | Graphite; detonation; spherical |
EPRUI Nanoparticles & Microspheres Co. Ltd | Carbon | 20-50nm | P(99.5%) |
EPRUI Nanoparticles & Microspheres Co. Ltd | Carbon | 20-50nm | P(99.5%) |
SkySpring Nanomaterials, Inc. | Carbon | 3-4nm | P(95%), explosion-synthesized diamond |
SkySpring Nanomaterials, Inc. | Carbon | 3-4nm | P(93%), explosion-synthesized diamond |
SkySpring Nanomaterials, Inc. | Carbon | 3-4nm | P(93%), graphite, hexagonal |
SkySpring Nanomaterials, Inc. | Carbon | 3-4nm | P(95%), explosion-synthesized diamond |
SkySpring Nanomaterials, Inc. | Carbon | 3-4nm | P(93%), explosion-synthesized diamond |
SkySpring Nanomaterials, Inc. | Carbon | 3-4nm | P(93%), graphite, hexagonal |
Yorkshire Bioscience Ltd. | Carbon | 3.5nm | Nanodiamond, grey, molecular biology grade; heightened non-diamond carbon content |
Yorkshire Bioscience Ltd. | Carbon | 3.5nm | Nanodiamond, black, molecular biology grade |
Carbodeon Ltd Oy | Carbon | 3.7-4.7nm | P(>97%) Nanodiamond |
Carbodeon Ltd Oy | Carbon | 3.7-4.7nm | P(>97%) Nanodiamond in ethylene glycol dispersion |
Carbodeon Ltd Oy | Carbon | 3.7-4.7nm | P(>97%) Nanodiamond in N-methyl pyrrolidone dispersion |
Carbodeon Ltd Oy | Carbon | 3.7-4.7nm | P(>97%) Nanodiamond |
Carbodeon Ltd Oy | Carbon | 3.7-4.7nm | P(>97%) Nanodiamond in ethylene glycol dispersion |
Carbodeon Ltd Oy | Carbon | 3.7-4.7nm | P(>97%) Nanodiamond in N-methyl pyrrolidone dispersion |
Marketech International | Carbon | 30nm | Amorphous carbon |
MTI Corporation | Carbon | 30nm | Amorphous, P(>99) |
Dynalene | Carbon | 4-10nm | Nanodiamond, Sp3 content 20 wt% |
Dynalene | Carbon | 4-10nm | Nanodiamonds, Sp3 content 75-99 wt% |
Carbodeon Ltd Oy | Carbon | 4-6nm | P(>97%) Nanodiamond amine functionalized |
Carbodeon Ltd Oy | Carbon | 4-6nm | P(>97%) Nanodiamond |
Carbodeon Ltd Oy | Carbon | 4-6nm | P(>97%) Nanodiamond |
Carbodeon Ltd Oy | Carbon | 4-6nm | P(>97%) Nanodiamond w/hydrophilic negative surface chemistry |
Carbodeon Ltd Oy | Carbon | 4-6nm | P(>97%) Nanodiamond |
Carbodeon Ltd Oy | Carbon | 4-6nm | P(>97%) Nanodiamond |
Carbodeon Ltd Oy | Carbon | 4-6nm | P(>97%) Nanodiamond w/hydrophilic negative surface chemistry |
MKnano | Carbon | 400nm | P(98%), nanographite |
MKnano | Carbon | 400nm | P(98%), nanographite |
PlasmaChem GmbH | Carbon | 4nm | Nanodiamonds purified (P>87%) Grade G01 |
PlasmaChem GmbH | Carbon | 4nm | Raw nanodiamond/nanographite mixture |
PlasmaChem GmbH | Carbon | 4nm | Nanodiamonds purified (P>87%) Grade G |
PlasmaChem GmbH | Carbon | 4nm | Nanodiamond/nanographite mixture purified (>16%) |
MKnano | Carbon | 50nm | P(98%), nanographite |
MKnano | Carbon | 50nm | P(98%), nanographite |
Sisco Research Laboratories Pvt. Ltd. | Carbon | 5nm | P(>98%) nanodiamond |
Sisco Research Laboratories Pvt. Ltd. | Carbon | 5nm | P(>98%) nanodiamond |
Alfa Chemistry | Carbon Nanotube, Single-walled | <3.5% Metal Catalyst | |
IoLiTec | Chromium | 50nm | P(99.5%) |
PRO-1 NANOSolutions | Co | superparamagnetic | |
EPRUI Nanoparticles & Microspheres Co. Ltd | Cobalt | 20-60nm | P(99.5%); spherical |
EPRUI Nanoparticles & Microspheres Co. Ltd | Cobalt | 20-60nm | P(99.5%); spherical |
Marketech International | Cobalt | 24nm | |
Applied Nanotech, Inc. | Cobalt | 28nm | P(>99%) |
Applied Nanotech, Inc. | Cobalt | 28nm | P(>99%) |
IoLiTec | Cobalt | 28nm | P(99.9%) |
Meliorum Technologies Inc. | Copper | 1-100nm | Fabrication in an inert environment |
Meliorum Technologies Inc. | Copper | 1-100nm | Suspended in water |
Meliorum Technologies Inc. | Copper | 1-100nm | Suspended in toluene |
QuantumSphere, Inc. | Copper | 10-70nm | Cu(core)/CuO(shell) |
IoLiTec | Copper | 100nm | P(99.8%) |
Nano Technology Inc. | Copper | 100nm | Spherical |
IoLiTec | Copper | 25nm | P(99.9%) |
PlasmaChem GmbH | Copper | 35-45nm | Suspended in ethanol |
PlasmaChem GmbH | Copper | 35-45nm | Suspended in oil |
SkySpring Nanomaterials, Inc. | Copper | 40-60nm | P(99.9%) |
SkySpring Nanomaterials, Inc. | Copper | 40-60nm | P(99.9%) |
MTI Corporation | Copper | 40nm | |
Applied Nanotech, Inc. | Copper | 45nm | P(>99%) |
Applied Nanotech, Inc. | Copper | 45nm | P(>99%) |
SkySpring Nanomaterials, Inc. | Copper | 5-7nm | P(22%), oil-soluble, dispersible additive |
SkySpring Nanomaterials, Inc. | Copper | 5-7nm | P(22%), oil-soluble, dispersible additive |
IoLiTec | Copper | 50nm | P(99.8%) |
NTbase | Copper | 50nm | P(99.99) spherical |
Sisco Research Laboratories Pvt. Ltd. | Copper | 50nm | P(>99.9%) spherical |
Sisco Research Laboratories Pvt. Ltd. | Copper | 50nm | P(>99.9%) spherical |
EPRUI Nanoparticles & Microspheres Co. Ltd | Copper | 60-80nm | P(99.9%); spherical |
EPRUI Nanoparticles & Microspheres Co. Ltd | Copper | 60-80nm | P(99.9%); spherical |
SkySpring Nanomaterials, Inc. | Copper | 60-80nm | P(99.9%) |
SkySpring Nanomaterials, Inc. | Copper | 60-80nm | P(99.9%) |
Cupro SpA | Copper | <100nm | <100 nm (AFM) |
Inframat Advanced Materials LLC | Copper | <80nm | P(99.8) |
SON | fe304 | 30 +/- 2 nm | |
Applied Quantum Materials Inc. | Gold | ||
Creative Diagnostics | Gold | ||
Creative Diagnostics | Gold | DiagNano Organic Gold Nanorods have applications in sensors, solar cells, flexible optical polarizers and filters, spin coating, negative refractive index materials, liquid crystals, security anti-forge materials. | |
Creative Diagnostics | Gold | DiagNano Organic Gold Nanorods have applications in sensors, solar cells, flexible optical polarizers and filters, spin coating, negative refractive index materials, liquid crystals, security anti-forge materials. | |
Creative Diagnostics | Gold | DiagNano Organic Gold Nanorods have applications in sensors, solar cells, flexible optical polarizers and filters, spin coating, negative refractive index materials, liquid crystals, security anti-forge materials. | |
Creative Diagnostics | Gold | DiagNano Organic Gold Nanorods have applications in sensors, solar cells, flexible optical polarizers and filters, spin coating, negative refractive index materials, liquid crystals, security anti-forge materials. | |
Creative Diagnostics | Gold | DiagNano Organic Gold Nanorods have applications in sensors, solar cells, flexible optical polarizers and filters, spin coating, negative refractive index materials, liquid crystals, security anti-forge materials. | |
Creative Diagnostics | Gold | DiagNano Gold Nanorods are widely used in dark-field microscopy, two-photon photoluminescence imaging, photoacoustic imaging, kinetic immunoassay, sensors, drug delivery and photothermal therapy. | |
Creative Diagnostics | Gold | DiagNano Gold Nanorods are widely used in dark-field microscopy, two-photon photoluminescence imaging, photoacoustic imaging, kinetic immunoassay, sensors, drug delivery and photothermal therapy. | |
Creative Diagnostics | Gold | DiagNano Gold Nanorods are widely used in dark-field microscopy, two-photon photoluminescence imaging, photoacoustic imaging, kinetic immunoassay, sensors, drug delivery and photothermal therapy. | |
Creative Diagnostics | Gold | DiagNano Gold Nanorods are widely used in dark-field microscopy, two-photon photoluminescence imaging, photoacoustic imaging, kinetic immunoassay, sensors, drug delivery and photothermal therapy. | |
Creative Diagnostics | Gold | DiagNano Gold Nanorods are widely used in dark-field microscopy, two-photon photoluminescence imaging, photoacoustic imaging, kinetic immunoassay, sensors, drug delivery and photothermal therapy. | |
Creative Diagnostics | Gold | DiagNano Gold Nanorods are widely used in dark-field microscopy, two-photon photoluminescence imaging, photoacoustic imaging, kinetic immunoassay, sensors, drug delivery and photothermal therapy. | |
Creative Diagnostics | Gold | DiagNano Gold Nanorods are widely used in dark-field microscopy, two-photon photoluminescence imaging, photoacoustic imaging, kinetic immunoassay, sensors, drug delivery and photothermal therapy. | |
Creative Diagnostics | Gold | DiagNano Gold Nanorods are widely used in dark-field microscopy, two-photon photoluminescence imaging, photoacoustic imaging, kinetic immunoassay, sensors, drug delivery and photothermal therapy. | |
Creative Diagnostics | Gold | DiagNano Gold Nanorods are widely used in dark-field microscopy, two-photon photoluminescence imaging, photoacoustic imaging, kinetic immunoassay, sensors, drug delivery and photothermal therapy. | |
Creative Diagnostics | Gold | DiagNano Gold Nanorods are widely used in dark-field microscopy, two-photon photoluminescence imaging, photoacoustic imaging, kinetic immunoassay, sensors, drug delivery and photothermal therapy. | |
Creative Diagnostics | Gold | DiagNano Gold Nanorods are widely used in dark-field microscopy, two-photon photoluminescence imaging, photoacoustic imaging, kinetic immunoassay, sensors, drug delivery and photothermal therapy. | |
Creative Diagnostics | Gold | DiagNano Gold Nanorods are widely used in dark-field microscopy, two-photon photoluminescence imaging, photoacoustic imaging, kinetic immunoassay, sensors, drug delivery and photothermal therapy. | |
Creative Diagnostics | Gold | DiagNano Gold Nanorods are widely used in dark-field microscopy, two-photon photoluminescence imaging, photoacoustic imaging, kinetic immunoassay, sensors, drug delivery and photothermal therapy. | |
Creative Diagnostics | Gold | DiagNano Gold Nanorods are widely used in dark-field microscopy, two-photon photoluminescence imaging, photoacoustic imaging, kinetic immunoassay, sensors, drug delivery and photothermal therapy. | |
Creative Diagnostics | Gold | DiagNano Gold Nanorods are widely used in dark-field microscopy, two-photon photoluminescence imaging, photoacoustic imaging, kinetic immunoassay, sensors, drug delivery and photothermal therapy. | |
Creative Diagnostics | Gold | DiagNano Gold Nanorods are widely used in dark-field microscopy, two-photon photoluminescence imaging, photoacoustic imaging, kinetic immunoassay, sensors, drug delivery and photothermal therapy. | |
Creative Diagnostics | Gold | DiagNano Gold Nanorods are widely used in dark-field microscopy, two-photon photoluminescence imaging, photoacoustic imaging, kinetic immunoassay, sensors, drug delivery and photothermal therapy. | |
Creative Diagnostics | Gold | DiagNano Gold Nanorods are widely used in dark-field microscopy, two-photon photoluminescence imaging, photoacoustic imaging, kinetic immunoassay, sensors, drug delivery and photothermal therapy. | |
Creative Diagnostics | Gold | DiagNano Gold Nanorods are widely used in dark-field microscopy, two-photon photoluminescence imaging, photoacoustic imaging, kinetic immunoassay, sensors, drug delivery and photothermal therapy. | |
Creative Diagnostics | Gold | DiagNano Gold Nanorods are widely used in dark-field microscopy, two-photon photoluminescence imaging, photoacoustic imaging, kinetic immunoassay, sensors, drug delivery and photothermal therapy. | |
Creative Diagnostics | Gold | DiagNano Gold Nanorods are widely used in dark-field microscopy, two-photon photoluminescence imaging, photoacoustic imaging, kinetic immunoassay, sensors, drug delivery and photothermal therapy. | |
Creative Diagnostics | Gold | DiagNano Gold Nanorods are widely used in dark-field microscopy, two-photon photoluminescence imaging, photoacoustic imaging, kinetic immunoassay, sensors, drug delivery and photothermal therapy. | |
Creative Diagnostics | Gold | DiagNano Gold Nanorods are widely used in dark-field microscopy, two-photon photoluminescence imaging, photoacoustic imaging, kinetic immunoassay, sensors, drug delivery and photothermal therapy. | |
Creative Diagnostics | Gold | DiagNano Gold Nanorods are widely used in dark-field microscopy, two-photon photoluminescence imaging, photoacoustic imaging, kinetic immunoassay, sensors, drug delivery and photothermal therapy. | |
Creative Diagnostics | Gold | DiagNano Gold Nanorods are widely used in dark-field microscopy, two-photon photoluminescence imaging, photoacoustic imaging, kinetic immunoassay, sensors, drug delivery and photothermal therapy. | |
Creative Diagnostics | Gold | DiagNano Gold Nanorods are widely used in dark-field microscopy, two-photon photoluminescence imaging, photoacoustic imaging, kinetic immunoassay, sensors, drug delivery and photothermal therapy. | |
Creative Diagnostics | Gold | DiagNano Gold Nanorods are widely used in dark-field microscopy, two-photon photoluminescence imaging, photoacoustic imaging, kinetic immunoassay, sensors, drug delivery and photothermal therapy. | |
Creative Diagnostics | Gold | DiagNano Gold Nanorods are widely used in dark-field microscopy, two-photon photoluminescence imaging, photoacoustic imaging, kinetic immunoassay, sensors, drug delivery and photothermal therapy. | |
Creative Diagnostics | Gold | DiagNano Gold Nanorods are widely used in dark-field microscopy, two-photon photoluminescence imaging, photoacoustic imaging, kinetic immunoassay, sensors, drug delivery and photothermal therapy. | |
Creative Diagnostics | Gold | DiagNano Gold Nanorods are widely used in dark-field microscopy, two-photon photoluminescence imaging, photoacoustic imaging, kinetic immunoassay, sensors, drug delivery and photothermal therapy. | |
Creative Diagnostics | Gold | DiagNano Gold Nanorods are widely used in dark-field microscopy, two-photon photoluminescence imaging, photoacoustic imaging, kinetic immunoassay, sensors, drug delivery and photothermal therapy. | |
Creative Diagnostics | Gold | DiagNano Gold Nanorods are widely used in dark-field microscopy, two-photon photoluminescence imaging, photoacoustic imaging, kinetic immunoassay, sensors, drug delivery and photothermal therapy. | |
Creative Diagnostics | Gold | DiagNano Gold Nanorods are widely used in dark-field microscopy, two-photon photoluminescence imaging, photoacoustic imaging, kinetic immunoassay, sensors, drug delivery and photothermal therapy. | |
Creative Diagnostics | Gold | DiagNano Gold Nanorods are widely used in dark-field microscopy, two-photon photoluminescence imaging, photoacoustic imaging, kinetic immunoassay, sensors, drug delivery and photothermal therapy. | |
Creative Diagnostics | Gold | DiagNano Gold Nanorods are widely used in dark-field microscopy, two-photon photoluminescence imaging, photoacoustic imaging, kinetic immunoassay, sensors, drug delivery and photothermal therapy. | |
Creative Diagnostics | Gold | DiagNano Gold Nanorods are widely used in dark-field microscopy, two-photon photoluminescence imaging, photoacoustic imaging, kinetic immunoassay, sensors, drug delivery and photothermal therapy. | |
Creative Diagnostics | Gold | DiagNano Gold Nanorods are widely used in dark-field microscopy, two-photon photoluminescence imaging, photoacoustic imaging, kinetic immunoassay, sensors, drug delivery and photothermal therapy. | |
Creative Diagnostics | Gold | DiagNano Gold Nanorods are widely used in dark-field microscopy, two-photon photoluminescence imaging, photoacoustic imaging, kinetic immunoassay, sensors, drug delivery and photothermal therapy. | |
Creative Diagnostics | Gold | DiagNano OligoBind Gold Nanoparticle Conjugation Kits are suitable for oligonucleotides gold nanoparticles conjugate. | |
Creative Diagnostics | Gold | DiagNano OligoBind Gold Nanoparticle Conjugation Kits are suitable for oligonucleotides gold nanoparticles conjugate. | |
Creative Diagnostics | Gold | DiagNano OligoBind Gold Nanoparticle Conjugation Kits are suitable for oligonucleotides gold nanoparticles conjugate. | |
Creative Diagnostics | Gold | DiagNano OligoBind Gold Nanoparticle Conjugation Kits are suitable for oligonucleotides gold nanoparticles conjugate. | |
Creative Diagnostics | Gold | DiagNano OligoBind Gold Nanoparticle Conjugation Kits are suitable for oligonucleotides gold nanoparticles conjugate. | |
Creative Diagnostics | Gold | DiagNano OligoBind Gold Nanoparticle Conjugation Kits are suitable for oligonucleotides gold nanoparticles conjugate. | |
Creative Diagnostics | Gold | DiagNano OligoBind Gold Nanoparticle Conjugation Kits are suitable for oligonucleotides gold nanoparticles conjugate. | |
Creative Diagnostics | Gold | DiagNano OligoBind Gold Nanoparticle Conjugation Kits are suitable for oligonucleotides gold nanoparticles conjugate. | |
Creative Diagnostics | Gold | DiagNano OligoBind Gold Nanoparticle Conjugation Kits are suitable for oligonucleotides gold nanoparticles conjugate. | |
Creative Diagnostics | Gold | DiagNano OligoBind Gold Nanoparticle Conjugation Kits are suitable for oligonucleotides gold nanoparticles conjugate. | |
Creative Diagnostics | Gold | DiagNano OligoBind Gold Nanoparticle Conjugation Kits are suitable for oligonucleotides gold nanoparticles conjugate. | |
Creative Diagnostics | Gold | DiagNano OligoBind Gold Nanoparticle Conjugation Kits are suitable for oligonucleotides gold nanoparticles conjugate. | |
Creative Diagnostics | Gold | Ideal for development of protein gold conjugates for use in applications such as blotting, lateral flow assays, microscopy and transmission electron microscopy (TEM). | |
Creative Diagnostics | Gold | Ideal for development of protein gold conjugates for use in applications such as blotting, lateral flow assays, microscopy and transmission electron microscopy (TEM). | |
Creative Diagnostics | Gold | Ideal for development of protein gold conjugates for use in applications such as blotting, lateral flow assays, microscopy and transmission electron microscopy (TEM). | |
Creative Diagnostics | Gold | Ideal for development of protein gold conjugates for use in applications such as blotting, lateral flow assays, microscopy and transmission electron microscopy (TEM). | |
Creative Diagnostics | Gold | Ideal for development of protein gold conjugates for use in applications such as blotting, lateral flow assays, microscopy and transmission electron microscopy (TEM). | |
Creative Diagnostics | Gold | Ideal for development of protein gold conjugates for use in applications such as blotting, lateral flow assays, microscopy and transmission electron microscopy (TEM). | |
Creative Diagnostics | Gold | Ideal for development of protein gold conjugates for use in applications such as blotting, lateral flow assays, microscopy and transmission electron microscopy (TEM). | |
Creative Diagnostics | Gold | Ideal for development of protein gold conjugates for use in applications such as blotting, lateral flow assays, microscopy and transmission electron microscopy (TEM). | |
Creative Diagnostics | Gold | Ideal for development of protein gold conjugates for use in applications such as blotting, lateral flow assays, microscopy and transmission electron microscopy (TEM). | |
Creative Diagnostics | Gold | Ideal for development of protein gold conjugates for use in applications such as blotting, lateral flow assays, microscopy and transmission electron microscopy (TEM). | |
Creative Diagnostics | Gold | Ideal for development of protein gold conjugates for use in applications such as blotting, lateral flow assays, microscopy and transmission electron microscopy (TEM). | |
Creative Diagnostics | Gold | Ideal for development of protein gold conjugates for use in applications such as blotting, lateral flow assays, microscopy and transmission electron microscopy (TEM). | |
Creative Diagnostics | Gold | Ideal for development of protein gold conjugates for use in applications such as blotting, lateral flow assays, microscopy and transmission electron microscopy (TEM). | |
Creative Diagnostics | Gold | Ideal for development of protein gold conjugates for use in applications such as blotting, lateral flow assays, microscopy and transmission electron microscopy (TEM). | |
Creative Diagnostics | Gold | Ideal for development of protein gold conjugates for use in applications such as blotting, lateral flow assays, microscopy and transmission electron microscopy (TEM). | |
Creative Diagnostics | Gold | Ideal for development of protein gold conjugates for use in applications such as blotting, lateral flow assays, microscopy and transmission electron microscopy (TEM). | |
Creative Diagnostics | Gold | Ideal for development of protein gold conjugates for use in applications such as blotting, lateral flow assays, microscopy and transmission electron microscopy (TEM). | |
Creative Diagnostics | Gold | Ideal for development of protein gold conjugates for use in applications such as blotting, lateral flow assays, microscopy and transmission electron microscopy (TEM). | |
Creative Diagnostics | Gold | Ideal for development of protein gold conjugates for use in applications such as blotting, lateral flow assays, microscopy and transmission electron microscopy (TEM). | |
Creative Diagnostics | Gold | Ideal for development of protein gold conjugates for use in applications such as blotting, lateral flow assays, microscopy and transmission electron microscopy (TEM). | |
Creative Diagnostics | Gold | Ideal for development of protein gold conjugates for use in applications such as blotting, lateral flow assays, microscopy and transmission electron microscopy (TEM). | |
Creative Diagnostics | Gold | Ideal for development of protein gold conjugates for use in applications such as blotting, lateral flow assays, microscopy and transmission electron microscopy (TEM). | |
Creative Diagnostics | Gold | Ideal for development of protein gold conjugates for use in applications such as blotting, lateral flow assays, microscopy and transmission electron microscopy (TEM). | |
Creative Diagnostics | Gold | Ideal for development of protein gold conjugates for use in applications such as blotting, lateral flow assays, microscopy and transmission electron microscopy (TEM). | |
Creative Diagnostics | Gold | Ideal for development of protein gold conjugates for use in applications such as blotting, lateral flow assays, microscopy and transmission electron microscopy (TEM). | |
Creative Diagnostics | Gold | Ideal for development of protein gold conjugates for use in applications such as blotting, lateral flow assays, microscopy and transmission electron microscopy (TEM). | |
Creative Diagnostics | Gold | Ideal for development of protein gold conjugates for use in applications such as blotting, lateral flow assays, microscopy and transmission electron microscopy (TEM). | |
Creative Diagnostics | Gold | Ideal for development of protein gold conjugates for use in applications such as blotting, lateral flow assays, microscopy and transmission electron microscopy (TEM). | |
Creative Diagnostics | Gold | Ideal for development of protein gold conjugates for use in applications such as blotting, lateral flow assays, microscopy and transmission electron microscopy (TEM). | |
Creative Diagnostics | Gold | Ideal for development of protein gold conjugates for use in applications such as blotting, lateral flow assays, microscopy and transmission electron microscopy (TEM). | |
Creative Diagnostics | Gold | Ideal for development of protein gold conjugates for use in applications such as blotting, lateral flow assays, microscopy and transmission electron microscopy (TEM). | |
Creative Diagnostics | Gold | Ideal for development of protein gold conjugates for use in applications such as blotting, lateral flow assays, microscopy and transmission electron microscopy (TEM). | |
Creative Diagnostics | Gold | Ideal for development of protein gold conjugates for use in applications such as blotting, lateral flow assays, microscopy and transmission electron microscopy (TEM). | |
Creative Diagnostics | Gold | Ideal for development of protein gold conjugates for use in applications such as blotting, lateral flow assays, microscopy and transmission electron microscopy (TEM). | |
Creative Diagnostics | Gold | Ideal for development of protein gold conjugates for use in applications such as blotting, lateral flow assays, microscopy and transmission electron microscopy (TEM). | |
Creative Diagnostics | Gold | Ideal for development of protein gold conjugates for use in applications such as blotting, lateral flow assays, microscopy and transmission electron microscopy (TEM). | |
Creative Diagnostics | Gold | Ideal for development of protein gold conjugates for use in applications such as blotting, lateral flow assays, microscopy and transmission electron microscopy (TEM). | |
Creative Diagnostics | Gold | Ideal for development of protein gold conjugates for use in applications such as blotting, lateral flow assays, microscopy and transmission electron microscopy (TEM). | |
Creative Diagnostics | Gold | Ideal for development of protein gold conjugates for use in applications such as blotting, lateral flow assays, microscopy and transmission electron microscopy (TEM). | |
Creative Diagnostics | Gold | Fluorophore labeled gold nanoparticles are suitable for in vitro dark field, bright field, and fluorescence imaging come in numerous conjugations. | |
Creative Diagnostics | Gold | Fluorophore labeled gold nanoparticles are suitable for in vitro dark field, bright field, and fluorescence imaging come in numerous conjugations. | |
Creative Diagnostics | Gold | Fluorophore labeled gold nanoparticles are suitable for in vitro dark field, bright field, and fluorescence imaging come in numerous conjugations. | |
Creative Diagnostics | Gold | Fluorophore labeled gold nanoparticles are suitable for in vitro dark field, bright field, and fluorescence imaging come in numerous conjugations. | |
Creative Diagnostics | Gold | Fluorophore labeled gold nanoparticles are suitable for in vitro dark field, bright field, and fluorescence imaging come in numerous conjugations. | |
Creative Diagnostics | Gold | Fluorophore labeled gold nanoparticles are suitable for in vitro dark field, bright field, and fluorescence imaging come in numerous conjugations. | |
Creative Diagnostics | Gold | Fluorophore labeled gold nanoparticles are suitable for in vitro dark field, bright field, and fluorescence imaging come in numerous conjugations. | |
Creative Diagnostics | Gold | Fluorophore labeled gold nanoparticles are suitable for in vitro dark field, bright field, and fluorescence imaging come in numerous conjugations. | |
Creative Diagnostics | Gold | Fluorophore labeled gold nanoparticles are suitable for in vitro dark field, bright field, and fluorescence imaging come in numerous conjugations. | |
Creative Diagnostics | Gold | Fluorophore labeled gold nanoparticles are suitable for in vitro dark field, bright field, and fluorescence imaging come in numerous conjugations. | |
Creative Diagnostics | Gold | Fluorophore labeled gold nanoparticles are suitable for in vitro dark field, bright field, and fluorescence imaging come in numerous conjugations. | |
Creative Diagnostics | Gold | Fluorophore labeled gold nanoparticles are suitable for in vitro dark field, bright field, and fluorescence imaging come in numerous conjugations. | |
Creative Diagnostics | Gold | Fluorophore labeled gold nanoparticles are suitable for in vitro dark field, bright field, and fluorescence imaging come in numerous conjugations. | |
Creative Diagnostics | Gold | Fluorophore labeled gold nanoparticles are suitable for in vitro dark field, bright field, and fluorescence imaging come in numerous conjugations. | |
Creative Diagnostics | Gold | Fluorophore labeled gold nanoparticles are suitable for in vitro dark field, bright field, and fluorescence imaging come in numerous conjugations. | |
Creative Diagnostics | Gold | Fluorophore labeled gold nanoparticles are suitable for in vitro dark field, bright field, and fluorescence imaging come in numerous conjugations. | |
Creative Diagnostics | Gold | Fluorophore labeled gold nanoparticles are suitable for in vitro dark field, bright field, and fluorescence imaging come in numerous conjugations. | |
Creative Diagnostics | Gold | Fluorophore labeled gold nanoparticles are suitable for in vitro dark field, bright field, and fluorescence imaging come in numerous conjugations. | |
Creative Diagnostics | Gold | Fluorophore labeled gold nanoparticles are suitable for in vitro dark field, bright field, and fluorescence imaging come in numerous conjugations. | |
Creative Diagnostics | Gold | Fluorophore labeled gold nanoparticles are suitable for in vitro dark field, bright field, and fluorescence imaging come in numerous conjugations. | |
Creative Diagnostics | Gold | Gold conjugates are suitable for use in immunoblotting, light microscopy, and electron microscopy applications. Working dilution 1:25-1:100. | |
Creative Diagnostics | Gold | Gold conjugates are suitable for use in immunoblotting, light microscopy, and electron microscopy applications. Working dilution 1:25-1:100. | |
Creative Diagnostics | Gold | Gold conjugates are suitable for use in immunoblotting, light microscopy, and electron microscopy applications. Working dilution 1:25-1:100. | |
Creative Diagnostics | Gold | Gold conjugates are suitable for use in immunoblotting, light microscopy, and electron microscopy applications. Working dilution 1:25-1:100. | |
Creative Diagnostics | Gold | Gold conjugates are suitable for use in immunoblotting, light microscopy, and electron microscopy applications. Working dilution 1:25-1:100. | |
Creative Diagnostics | Gold | Gold conjugates are suitable for use in immunoblotting, light microscopy, and electron microscopy applications. Working dilution 1:25-1:100. | |
Creative Diagnostics | Gold | Gold conjugates are suitable for use in immunoblotting, light microscopy, and electron microscopy applications. Working dilution 1:25-1:100. | |
Creative Diagnostics | Gold | Gold conjugates are suitable for use in immunoblotting, light microscopy, and electron microscopy applications. Working dilution 1:25-1:100. | |
Creative Diagnostics | Gold | Gold conjugates are suitable for use in immunoblotting, light microscopy, and electron microscopy applications. Working dilution 1:25-1:100. | |
Creative Diagnostics | Gold | Gold conjugates are suitable for use in immunoblotting, light microscopy, and electron microscopy applications. Working dilution 1:25-1:100. | |
Creative Diagnostics | Gold | Gold conjugates are suitable for use in immunoblotting, light microscopy, and electron microscopy applications. Working dilution 1:25-1:100. | |
Creative Diagnostics | Gold | Gold conjugates are suitable for use in immunoblotting, light microscopy, and electron microscopy applications. Working dilution 1:25-1:100. | |
Creative Diagnostics | Gold | Gold conjugates are suitable for use in immunoblotting, light microscopy, and electron microscopy applications. Working dilution 1:25-1:100. | |
Creative Diagnostics | Gold | Gold conjugates are suitable for use in immunoblotting, light microscopy, and electron microscopy applications. Working dilution 1:25-1:100. | |
Creative Diagnostics | Gold | Gold conjugates are suitable for use in immunoblotting, light microscopy, and electron microscopy applications. Working dilution 1:25-1:100. | |
Creative Diagnostics | Gold | Gold conjugates are suitable for use in immunoblotting, light microscopy, and electron microscopy applications. Working dilution 1:25-1:100. | |
Creative Diagnostics | Gold | Gold conjugates are suitable for use in immunoblotting, light microscopy, and electron microscopy applications. Working dilution 1:25-1:100. | |
Creative Diagnostics | Gold | Gold conjugates are suitable for use in immunoblotting, light microscopy, and electron microscopy applications. Working dilution 1:25-1:100. | |
Creative Diagnostics | Gold | Gold conjugates are suitable for use in immunoblotting, light microscopy, and electron microscopy applications. Working dilution 1:25-1:100. | |
Creative Diagnostics | Gold | Gold conjugates are suitable for use in immunoblotting, light microscopy, and electron microscopy applications. Working dilution 1:25-1:100. | |
Creative Diagnostics | Gold | Gold conjugates are suitable for use in immunoblotting, light microscopy, and electron microscopy applications. Working dilution 1:25-1:100. | |
Creative Diagnostics | Gold | Gold conjugates are suitable for use in immunoblotting, light microscopy, and electron microscopy applications. Working dilution 1:25-1:100. | |
Creative Diagnostics | Gold | Gold conjugates are suitable for use in immunoblotting, light microscopy, and electron microscopy applications. Working dilution 1:25-1:100. | |
Creative Diagnostics | Gold | Gold conjugates are suitable for use in immunoblotting, light microscopy, and electron microscopy applications. Working dilution 1:25-1:100. | |
Creative Diagnostics | Gold | Gold conjugates are suitable for use in immunoblotting, light microscopy, and electron microscopy applications. Working dilution 1:25-1:100. | |
Creative Diagnostics | Gold | Gold conjugates are suitable for use in immunoblotting, light microscopy, and electron microscopy applications. Working dilution 1:25-1:100. | |
Creative Diagnostics | Gold | Gold conjugates are suitable for use in immunoblotting, light microscopy, and electron microscopy applications. Working dilution 1:25-1:100. | |
Creative Diagnostics | Gold | Gold conjugates are suitable for use in immunoblotting, light microscopy, and electron microscopy applications. Working dilution 1:25-1:100. | |
Creative Diagnostics | Gold | Gold conjugates are suitable for use in immunoblotting, light microscopy, and electron microscopy applications. Working dilution 1:25-1:100. | |
Creative Diagnostics | Gold | Gold conjugates are suitable for use in immunoblotting, light microscopy, and electron microscopy applications. Working dilution 1:25-1:100. | |
Creative Diagnostics | Gold | Gold conjugates are suitable for use in immunoblotting, light microscopy, and electron microscopy applications. Working dilution 1:25-1:100. | |
Creative Diagnostics | Gold | Gold conjugates are suitable for use in immunoblotting, light microscopy, and electron microscopy applications. Working dilution 1:25-1:100. | |
Creative Diagnostics | Gold | Gold conjugates are suitable for use in immunoblotting, light microscopy, and electron microscopy applications. Working dilution 1:25-1:100. | |
Creative Diagnostics | Gold | Gold conjugates are suitable for use in immunoblotting, light microscopy, and electron microscopy applications. Working dilution 1:25-1:100. | |
Creative Diagnostics | Gold | Gold conjugates are suitable for use in immunoblotting, light microscopy, and electron microscopy applications. Working dilution 1:25-1:100. | |
Creative Diagnostics | Gold | Gold conjugates are suitable for use in immunoblotting, light microscopy, and electron microscopy applications. Working dilution 1:25-1:100. | |
Creative Diagnostics | Gold | Gold conjugates are suitable for use in immunoblotting, light microscopy, and electron microscopy applications. Working dilution 1:25-1:100. | |
Creative Diagnostics | Gold | Gold conjugates are suitable for use in immunoblotting, light microscopy, and electron microscopy applications. Working dilution 1:25-1:100. | |
Creative Diagnostics | Gold | Gold conjugates are suitable for use in immunoblotting, light microscopy, and electron microscopy applications. Working dilution 1:25-1:100. | |
Creative Diagnostics | Gold | Gold conjugates are suitable for use in immunoblotting, light microscopy, and electron microscopy applications. Working dilution 1:25-1:100. | |
Creative Diagnostics | Gold | Gold conjugates are suitable for use in immunoblotting, light microscopy, and electron microscopy applications. Working dilution 1:25-1:100. | |
Creative Diagnostics | Gold | Gold conjugates are suitable for use in immunoblotting, light microscopy, and electron microscopy applications. Working dilution 1:25-1:100. | |
Creative Diagnostics | Gold | Gold conjugates are suitable for use in immunoblotting, light microscopy, and electron microscopy applications. Working dilution 1:25-1:100. | |
Creative Diagnostics | Gold | Gold conjugates are suitable for use in immunoblotting, light microscopy, and electron microscopy applications. Working dilution 1:25-1:100. | |
Creative Diagnostics | Gold | Gold conjugates are suitable for use in immunoblotting, light microscopy, and electron microscopy applications. Working dilution 1:25-1:100. | |
Creative Diagnostics | Gold | Gold conjugates are suitable for use in immunoblotting, light microscopy, and electron microscopy applications. Working dilution 1:25-1:100. | |
Creative Diagnostics | Gold | Gold conjugates are suitable for use in immunoblotting, light microscopy, and electron microscopy applications. Working dilution 1:25-1:100. | |
Creative Diagnostics | Gold | Gold conjugates are suitable for use in immunoblotting, light microscopy, and electron microscopy applications. Working dilution 1:25-1:100. | |
Creative Diagnostics | Gold | Gold conjugates are suitable for use in immunoblotting, light microscopy, and electron microscopy applications. Working dilution 1:25-1:100. | |
Creative Diagnostics | Gold | Gold conjugates are suitable for use in immunoblotting, light microscopy, and electron microscopy applications. Working dilution 1:25-1:100. | |
Creative Diagnostics | Gold | Gold conjugates are suitable for use in immunoblotting, light microscopy, and electron microscopy applications. Working dilution 1:25-1:100. | |
Creative Diagnostics | Gold | Gold conjugates are suitable for use in immunoblotting, light microscopy, and electron microscopy applications. Working dilution 1:25-1:100. | |
Creative Diagnostics | Gold | Gold conjugates are suitable for use in immunoblotting, light microscopy, and electron microscopy applications. Working dilution 1:25-1:100. | |
Creative Diagnostics | Gold | Gold conjugates are suitable for use in immunoblotting, light microscopy, and electron microscopy applications. Working dilution 1:25-1:100. | |
Creative Diagnostics | Gold | Gold conjugates are suitable for use in immunoblotting, light microscopy, and electron microscopy applications. Working dilution 1:25-1:100. | |
Creative Diagnostics | Gold | Gold conjugates are suitable for use in immunoblotting, light microscopy, and electron microscopy applications. Working dilution 1:25-1:100. | |
Creative Diagnostics | Gold | Gold conjugates are suitable for use in immunoblotting, light microscopy, and electron microscopy applications. Working dilution 1:25-1:100. | |
Creative Diagnostics | Gold | Gold conjugates are suitable for use in immunoblotting, light microscopy, and electron microscopy applications. Working dilution 1:25-1:100. | |
Creative Diagnostics | Gold | Gold conjugates are suitable for use in immunoblotting, light microscopy, and electron microscopy applications. Working dilution 1:25-1:100. | |
Creative Diagnostics | Gold | Gold conjugates are suitable for use in immunoblotting, light microscopy, and electron microscopy applications. Working dilution 1:25-1:100. | |
Creative Diagnostics | Gold | Gold conjugates are suitable for use in immunoblotting, light microscopy, and electron microscopy applications. Working dilution 1:25-1:100. | |
Creative Diagnostics | Gold | Gold conjugates are suitable for use in immunoblotting, light microscopy, and electron microscopy applications. Working dilution 1:25-1:100. | |
Creative Diagnostics | Gold | Gold conjugates are suitable for use in immunoblotting, light microscopy, and electron microscopy applications. Working dilution 1:25-1:100. | |
Creative Diagnostics | Gold | Gold conjugates are suitable for use in immunoblotting, light microscopy, and electron microscopy applications. Working dilution 1:25-1:100. | |
Creative Diagnostics | Gold | Gold conjugates are suitable for use in immunoblotting, light microscopy, and electron microscopy applications. Working dilution 1:25-1:100. | |
Creative Diagnostics | Gold | Gold conjugates are suitable for use in immunoblotting, light microscopy, and electron microscopy applications. Working dilution 1:25-1:100. | |
Creative Diagnostics | Gold | Gold conjugates are suitable for use in immunoblotting, light microscopy, and electron microscopy applications. Working dilution 1:25-1:100. | |
Creative Diagnostics | Gold | Gold conjugates are suitable for use in immunoblotting, light microscopy, and electron microscopy applications. Working dilution 1:25-1:100. | |
Creative Diagnostics | Gold | Gold conjugates are suitable for use in immunoblotting, light microscopy, and electron microscopy applications. Working dilution 1:25-1:100. | |
Creative Diagnostics | Gold | Gold conjugates are suitable for use in immunoblotting, light microscopy, and electron microscopy applications. Working dilution 1:25-1:100. | |
Creative Diagnostics | Gold | Gold conjugates are suitable for use in immunoblotting, light microscopy, and electron microscopy applications. Working dilution 1:25-1:100. | |
Creative Diagnostics | Gold | Gold conjugates are suitable for use in immunoblotting, light microscopy, and electron microscopy applications. Working dilution 1:25-1:100. | |
Creative Diagnostics | Gold | Gold conjugates are suitable for use in immunoblotting, light microscopy, and electron microscopy applications. Working dilution 1:25-1:100. | |
Creative Diagnostics | Gold | Gold conjugates are suitable for use in immunoblotting, light microscopy, and electron microscopy applications. Working dilution 1:25-1:100. | |
Creative Diagnostics | Gold | Gold conjugates are suitable for use in immunoblotting, light microscopy, and electron microscopy applications. Working dilution 1:25-1:100. | |
Creative Diagnostics | Gold | Gold conjugates are suitable for use in immunoblotting, light microscopy, and electron microscopy applications. Working dilution 1:25-1:100. | |
Creative Diagnostics | Gold | Gold conjugates are suitable for use in immunoblotting, light microscopy, and electron microscopy applications. Working dilution 1:25-1:100. | |
Creative Diagnostics | Gold | Gold conjugates are suitable for use in immunoblotting, light microscopy, and electron microscopy applications. Working dilution 1:25-1:100. | |
Creative Diagnostics | Gold | Gold conjugates are suitable for use in immunoblotting, light microscopy, and electron microscopy applications. Working dilution 1:25-1:100. | |
Creative Diagnostics | Gold | Gold conjugates are suitable for use in immunoblotting, light microscopy, and electron microscopy applications. Working dilution 1:25-1:100. | |
Creative Diagnostics | Gold | Gold conjugates are suitable for use in immunoblotting, light microscopy, and electron microscopy applications. Working dilution 1:25-1:100. | |
Creative Diagnostics | Gold | Gold conjugates are suitable for use in immunoblotting, light microscopy, and electron microscopy applications. Working dilution 1:25-1:100. | |
Creative Diagnostics | Gold | Gold conjugates are suitable for use in immunoblotting, light microscopy, and electron microscopy applications. Working dilution 1:25-1:100. | |
Creative Diagnostics | Gold | Gold conjugates are suitable for use in immunoblotting, light microscopy, and electron microscopy applications. Working dilution 1:25-1:100. | |
Creative Diagnostics | Gold | Gold conjugates are suitable for use in immunoblotting, light microscopy, and electron microscopy applications. Working dilution 1:25-1:100. | |
Creative Diagnostics | Gold | Gold conjugates are suitable for use in immunoblotting, light microscopy, and electron microscopy applications. Working dilution 1:25-1:100. | |
Creative Diagnostics | Gold | Gold conjugates are suitable for use in immunoblotting, light microscopy, and electron microscopy applications. Working dilution 1:25-1:100. | |
Creative Diagnostics | Gold | Gold conjugates are suitable for use in immunoblotting, light microscopy, and electron microscopy applications. Working dilution 1:25-1:100. | |
Creative Diagnostics | Gold | Gold conjugates are suitable for use in immunoblotting, light microscopy, and electron microscopy applications. Working dilution 1:25-1:100. | |
Creative Diagnostics | Gold | Gold conjugates are suitable for use in immunoblotting, light microscopy, and electron microscopy applications. Working dilution 1:25-1:100. | |
Creative Diagnostics | Gold | Gold conjugates are suitable for use in immunoblotting, light microscopy, and electron microscopy applications. Working dilution 1:25-1:100. | |
Creative Diagnostics | Gold | Gold conjugates are suitable for use in immunoblotting, light microscopy, and electron microscopy applications. Working dilution 1:25-1:100. | |
Creative Diagnostics | Gold | Gold conjugates are suitable for use in immunoblotting, light microscopy, and electron microscopy applications. Working dilution 1:25-1:100. | |
Creative Diagnostics | Gold | Gold conjugates are suitable for use in immunoblotting, light microscopy, and electron microscopy applications. Working dilution 1:25-1:100. | |
Creative Diagnostics | Gold | Gold conjugates are suitable for use in immunoblotting, light microscopy, and electron microscopy applications. Working dilution 1:25-1:100. | |
Creative Diagnostics | Gold | Gold conjugates are suitable for use in immunoblotting, light microscopy, and electron microscopy applications. Working dilution 1:25-1:100. | |
Creative Diagnostics | Gold | Gold conjugates are suitable for use in immunoblotting, light microscopy, and electron microscopy applications. Working dilution 1:25-1:100. | |
Creative Diagnostics | Gold | Gold conjugates are suitable for use in immunoblotting, light microscopy, and electron microscopy applications. Working dilution 1:25-1:100. | |
Creative Diagnostics | Gold | Gold conjugates are suitable for use in immunoblotting, light microscopy, and electron microscopy applications. Working dilution 1:25-1:100. | |
Creative Diagnostics | Gold | Gold conjugates are suitable for use in immunoblotting, light microscopy, and electron microscopy applications. Working dilution 1:25-1:100. | |
Creative Diagnostics | Gold | Gold conjugates are suitable for use in immunoblotting, light microscopy, and electron microscopy applications. Working dilution 1:25-1:100. | |
Creative Diagnostics | Gold | Gold conjugates are suitable for use in immunoblotting, light microscopy, and electron microscopy applications. Working dilution 1:25-1:100. | |
Creative Diagnostics | Gold | Gold conjugates are suitable for use in immunoblotting, light microscopy, and electron microscopy applications. Working dilution 1:25-1:100. | |
Creative Diagnostics | Gold | Gold conjugates are suitable for use in immunoblotting, light microscopy, and electron microscopy applications. Working dilution 1:25-1:100. | |
Creative Diagnostics | Gold | Gold conjugates are suitable for use in immunoblotting, light microscopy, and electron microscopy applications. Working dilution 1:25-1:100. | |
Creative Diagnostics | Gold | Gold conjugates are suitable for use in immunoblotting, light microscopy, and electron microscopy applications. Working dilution 1:25-1:100. | |
Creative Diagnostics | Gold | Gold conjugates are suitable for use in immunoblotting, light microscopy, and electron microscopy applications. Working dilution 1:25-1:100. | |
Creative Diagnostics | Gold | Gold conjugates are suitable for use in immunoblotting, light microscopy, and electron microscopy applications. Working dilution 1:25-1:100. | |
Creative Diagnostics | Gold | Gold conjugates are suitable for use in immunoblotting, light microscopy, and electron microscopy applications. Working dilution 1:25-1:100. | |
Creative Diagnostics | Gold | Gold conjugates are suitable for use in immunoblotting, light microscopy, and electron microscopy applications. Working dilution 1:25-1:100. | |
Creative Diagnostics | Gold | Gold conjugates are suitable for use in immunoblotting, light microscopy, and electron microscopy applications. Working dilution 1:25-1:100. | |
Creative Diagnostics | Gold | Gold conjugates are suitable for use in immunoblotting, light microscopy, and electron microscopy applications. Working dilution 1:25-1:100. | |
Creative Diagnostics | Gold | Gold conjugates are suitable for use in immunoblotting, light microscopy, and electron microscopy applications. Working dilution 1:30-1:300. | |
Creative Diagnostics | Gold | Gold conjugates are suitable for use in immunoblotting, light microscopy, and electron microscopy applications. Working dilution 1:30-1:300. | |
Creative Diagnostics | Gold | Gold conjugates are suitable for use in immunoblotting, light microscopy, and electron microscopy applications. Working dilution 1:30-1:300. | |
Creative Diagnostics | Gold | Gold conjugates are suitable for use in immunoblotting, light microscopy, and electron microscopy applications. Working dilution 1:30-1:300. | |
Creative Diagnostics | Gold | Gold conjugates are suitable for use in immunoblotting, light microscopy, and electron microscopy applications. Working dilution 1:30-1:300. | |
Creative Diagnostics | Gold | Gold conjugates are suitable for use in immunoblotting, light microscopy, and electron microscopy applications. Working dilution 1:30-1:300. | |
Creative Diagnostics | Gold | Gold conjugates are suitable for use in immunoblotting, light microscopy, and electron microscopy applications. Working dilution 1:30-1:300. | |
Creative Diagnostics | Gold | Gold conjugates are suitable for use in immunoblotting, light microscopy, and electron microscopy applications. Working dilution 1:25-1:100. | |
Creative Diagnostics | Gold | Gold conjugates are suitable for use in immunoblotting, light microscopy, and electron microscopy applications. Working dilution 1:25-1:100. | |
Creative Diagnostics | Gold | Gold conjugates are suitable for use in immunoblotting, light microscopy, and electron microscopy applications. Working dilution 1:25-1:100. | |
Creative Diagnostics | Gold | Gold conjugates are suitable for use in immunoblotting, light microscopy, and electron microscopy applications. Working dilution 1:25-1:100. | |
Creative Diagnostics | Gold | Gold conjugates are suitable for use in immunoblotting, light microscopy, and electron microscopy applications. Working dilution 1:25-1:100. | |
Creative Diagnostics | Gold | Gold conjugates are suitable for use in immunoblotting, light microscopy, and electron microscopy applications. Working dilution 1:25-1:100. | |
Creative Diagnostics | Gold | Gold conjugates are suitable for use in immunoblotting, light microscopy, and electron microscopy applications. Working dilution 1:25-1:100. | |
Creative Diagnostics | Gold | Gold conjugates are suitable for use in immunoblotting, light microscopy, and electron microscopy applications. Working dilution 1:25-1:100. | |
Creative Diagnostics | Gold | Gold conjugates are suitable for use in immunoblotting, light microscopy, and electron microscopy applications. Working dilution 1:25-1:100. | |
Creative Diagnostics | Gold | Gold conjugates are suitable for use in immunoblotting, light microscopy, and electron microscopy applications. Working dilution 1:25-1:100. | |
Creative Diagnostics | Gold | DiagNano Transferrin conjugated gold nanoparticles are suitable for use in cell uptake studies and can be detected using light microscopy (requires silver enhancement), dark-field microscopy, and electron microscopy. Working dilution 1:10-1:100. | |
Creative Diagnostics | Gold | DiagNano Transferrin conjugated gold nanoparticles are suitable for use in cell uptake studies and can be detected using light microscopy (requires silver enhancement), dark-field microscopy, and electron microscopy. Working dilution 1:10-1:100. | |
Creative Diagnostics | Gold | DiagNano Transferrin conjugated gold nanoparticles are suitable for use in cell uptake studies and can be detected using light microscopy (requires silver enhancement), dark-field microscopy, and electron microscopy. Working dilution 1:10-1:100. | |
Creative Diagnostics | Gold | DiagNano Transferrin conjugated gold nanoparticles are suitable for use in cell uptake studies and can be detected using light microscopy (requires silver enhancement), dark-field microscopy, and electron microscopy. Working dilution 1:10-1:100. | |
Creative Diagnostics | Gold | DiagNano Transferrin conjugated gold nanoparticles are suitable for use in cell uptake studies and can be detected using light microscopy (requires silver enhancement), dark-field microscopy, and electron microscopy. Working dilution 1:10-1:100. | |
Creative Diagnostics | Gold | DiagNano Transferrin conjugated gold nanoparticles are suitable for use in cell uptake studies and can be detected using light microscopy (requires silver enhancement), dark-field microscopy, and electron microscopy. Working dilution 1:10-1:100. | |
Creative Diagnostics | Gold | DiagNano Transferrin conjugated gold nanoparticles are suitable for use in cell uptake studies and can be detected using light microscopy (requires silver enhancement), dark-field microscopy, and electron microscopy. Working dilution 1:10-1:100. | |
Creative Diagnostics | Gold | DiagNano Transferrin conjugated gold nanoparticles are suitable for use in cell uptake studies and can be detected using light microscopy (requires silver enhancement), dark-field microscopy, and electron microscopy. Working dilution 1:10-1:100. | |
Creative Diagnostics | Gold | DiagNano Transferrin conjugated gold nanoparticles are suitable for use in cell uptake studies and can be detected using light microscopy (requires silver enhancement), dark-field microscopy, and electron microscopy. Working dilution 1:10-1:100. | |
Creative Diagnostics | Gold | DiagNano Transferrin conjugated gold nanoparticles are suitable for use in cell uptake studies and can be detected using light microscopy (requires silver enhancement), dark-field microscopy, and electron microscopy. Working dilution 1:10-1:100. | |
Creative Diagnostics | Gold | DiagNano Protein G conjugated gold nanoparticles are suitable for use in immunoblotting, light microscopy, and electron microscopy applications. Working dilution 1:30-1:300. | |
Creative Diagnostics | Gold | DiagNano Protein G conjugated gold nanoparticles are suitable for use in immunoblotting, light microscopy, and electron microscopy applications. Working dilution 1:30-1:300. | |
Creative Diagnostics | Gold | DiagNano Protein G conjugated gold nanoparticles are suitable for use in immunoblotting, light microscopy, and electron microscopy applications. Working dilution 1:30-1:300. | |
Creative Diagnostics | Gold | DiagNano Protein G conjugated gold nanoparticles are suitable for use in immunoblotting, light microscopy, and electron microscopy applications. Working dilution 1:30-1:300. | |
Creative Diagnostics | Gold | DiagNano Protein G conjugated gold nanoparticles are suitable for use in immunoblotting, light microscopy, and electron microscopy applications. Working dilution 1:30-1:300. | |
Creative Diagnostics | Gold | DiagNano Protein G conjugated gold nanoparticles are suitable for use in immunoblotting, light microscopy, and electron microscopy applications. Working dilution 1:30-1:300. | |
Creative Diagnostics | Gold | DiagNano Protein G conjugated gold nanoparticles are suitable for use in immunoblotting, light microscopy, and electron microscopy applications. Working dilution 1:30-1:300. | |
Creative Diagnostics | Gold | DiagNano Protein G conjugated gold nanoparticles are suitable for use in immunoblotting, light microscopy, and electron microscopy applications. Working dilution 1:25-1:100. | |
Creative Diagnostics | Gold | DiagNano Protein G conjugated gold nanoparticles are suitable for use in immunoblotting, light microscopy, and electron microscopy applications. Working dilution 1:25-1:100. | |
Creative Diagnostics | Gold | DiagNano Protein G conjugated gold nanoparticles are suitable for use in immunoblotting, light microscopy, and electron microscopy applications. Working dilution 1:25-1:100. | |
Creative Diagnostics | Gold | DiagNano Protein G conjugated gold nanoparticles are suitable for use in immunoblotting, light microscopy, and electron microscopy applications. Working dilution 1:25-1:100. | |
Creative Diagnostics | Gold | DiagNano Protein G conjugated gold nanoparticles are suitable for use in immunoblotting, light microscopy, and electron microscopy applications. Working dilution 1:25-1:100. | |
Creative Diagnostics | Gold | DiagNano Protein G conjugated gold nanoparticles are suitable for use in immunoblotting, light microscopy, and electron microscopy applications. Working dilution 1:25-1:100. | |
Creative Diagnostics | Gold | DiagNano Protein G conjugated gold nanoparticles are suitable for use in immunoblotting, light microscopy, and electron microscopy applications. Working dilution 1:25-1:100. | |
Creative Diagnostics | Gold | DiagNano Protein G conjugated gold nanoparticles are suitable for use in immunoblotting, light microscopy, and electron microscopy applications. Working dilution 1:25-1:100. | |
Creative Diagnostics | Gold | DiagNano Protein G conjugated gold nanoparticles are suitable for use in immunoblotting, light microscopy, and electron microscopy applications. Working dilution 1:25-1:100. | |
Creative Diagnostics | Gold | DiagNano Protein G conjugated gold nanoparticles are suitable for use in immunoblotting, light microscopy, and electron microscopy applications. Working dilution 1:25-1:100. | |
Creative Diagnostics | Gold | DiagNano Protein A conjugated gold nanoparticles are suitable for use in immunoblotting, light microscopy, and electron microscopy applications. Working dilution 1:30-1:300. | |
Creative Diagnostics | Gold | DiagNano Protein A conjugated gold nanoparticles are suitable for use in immunoblotting, light microscopy, and electron microscopy applications. Working dilution 1:30-1:300. | |
Creative Diagnostics | Gold | DiagNano Protein A conjugated gold nanoparticles are suitable for use in immunoblotting, light microscopy, and electron microscopy applications. Working dilution 1:30-1:300. | |
Creative Diagnostics | Gold | DiagNano Protein A conjugated gold nanoparticles are suitable for use in immunoblotting, light microscopy, and electron microscopy applications. Working dilution 1:30-1:300. | |
Creative Diagnostics | Gold | DiagNano Protein A conjugated gold nanoparticles are suitable for use in immunoblotting, light microscopy, and electron microscopy applications. Working dilution 1:30-1:300. | |
Creative Diagnostics | Gold | DiagNano Protein A conjugated gold nanoparticles are suitable for use in immunoblotting, light microscopy, and electron microscopy applications. Working dilution 1:30-1:300. | |
Creative Diagnostics | Gold | DiagNano Protein A conjugated gold nanoparticles are suitable for use in immunoblotting, light microscopy, and electron microscopy applications. Working dilution 1:30-1:300. | |
Creative Diagnostics | Gold | DiagNano Protein A conjugated gold nanoparticles are suitable for use in immunoblotting, light microscopy, and electron microscopy applications. Working dilution 1:25-1:100. | |
Creative Diagnostics | Gold | DiagNano Protein A conjugated gold nanoparticles are suitable for use in immunoblotting, light microscopy, and electron microscopy applications. Working dilution 1:25-1:100. | |
Creative Diagnostics | Gold | DiagNano Protein A conjugated gold nanoparticles are suitable for use in immunoblotting, light microscopy, and electron microscopy applications. Working dilution 1:25-1:100. | |
Creative Diagnostics | Gold | DiagNano Protein A conjugated gold nanoparticles are suitable for use in immunoblotting, light microscopy, and electron microscopy applications. Working dilution 1:25-1:100. | |
Creative Diagnostics | Gold | DiagNano Protein A conjugated gold nanoparticles are suitable for use in immunoblotting, light microscopy, and electron microscopy applications. Working dilution 1:25-1:100. | |
Creative Diagnostics | Gold | DiagNano Protein A conjugated gold nanoparticles are suitable for use in immunoblotting, light microscopy, and electron microscopy applications. Working dilution 1:25-1:100. | |
Creative Diagnostics | Gold | DiagNano Protein A conjugated gold nanoparticles are suitable for use in immunoblotting, light microscopy, and electron microscopy applications. Working dilution 1:25-1:100. | |
Creative Diagnostics | Gold | DiagNano Protein A conjugated gold nanoparticles are suitable for use in immunoblotting, light microscopy, and electron microscopy applications. Working dilution 1:25-1:100. | |
Creative Diagnostics | Gold | DiagNano Protein A conjugated gold nanoparticles are suitable for use in immunoblotting, light microscopy, and electron microscopy applications. Working dilution 1:25-1:100. | |
Creative Diagnostics | Gold | DiagNano Protein A conjugated gold nanoparticles are suitable for use in immunoblotting, light microscopy, and electron microscopy applications. Working dilution 1:25-1:100. | |
Creative Diagnostics | Gold | Ideal for binding and detection of streptavidin in applications such as TEM, ELISA and Immuno dot-blots among others. | |
Creative Diagnostics | Gold | Ideal for binding and detection of streptavidin in applications such as TEM, ELISA and Immuno dot-blots among others. | |
Creative Diagnostics | Gold | Ideal for binding and detection of streptavidin in applications such as TEM, ELISA and Immuno dot-blots among others. | |
Creative Diagnostics | Gold | Ideal for binding and detection of streptavidin in applications such as TEM, ELISA and Immuno dot-blots among others. | |
Creative Diagnostics | Gold | Ideal for binding and detection of streptavidin in applications such as TEM, ELISA and Immuno dot-blots among others. | |
Creative Diagnostics | Gold | Ideal for binding and detection of streptavidin in applications such as TEM, ELISA and Immuno dot-blots among others. | |
Creative Diagnostics | Gold | Ideal for binding and detection of streptavidin in applications such as TEM, ELISA and Immuno dot-blots among others. | |
Creative Diagnostics | Gold | Ideal for binding and detection of streptavidin in applications such as TEM, ELISA and Immuno dot-blots among others. | |
Creative Diagnostics | Gold | Ideal for binding and detection of streptavidin in applications such as TEM, ELISA and Immuno dot-blots among others. | |
Creative Diagnostics | Gold | Ideal for binding and detection of streptavidin in applications such as TEM, ELISA and Immuno dot-blots among others. | |
Creative Diagnostics | Gold | Ideal for binding and detection of streptavidin in applications such as TEM, ELISA and Immuno dot-blots among others. | |
Creative Diagnostics | Gold | Ideal for binding and detection of streptavidin in applications such as TEM, ELISA and Immuno dot-blots among others. | |
Creative Diagnostics | Gold | Suitable for conjugating proteins and DNA using standard EDC/NHS coupling chemistry. | |
Creative Diagnostics | Gold | Suitable for conjugating proteins and DNA using standard EDC/NHS coupling chemistry. | |
Creative Diagnostics | Gold | Suitable for conjugating proteins and DNA using standard EDC/NHS coupling chemistry. | |
Creative Diagnostics | Gold | Suitable for conjugating proteins and DNA using standard EDC/NHS coupling chemistry. | |
Creative Diagnostics | Gold | Suitable for conjugating proteins and DNA using standard EDC/NHS coupling chemistry. | |
Creative Diagnostics | Gold | Suitable for conjugating proteins and DNA using standard EDC/NHS coupling chemistry. | |
Creative Diagnostics | Gold | Suitable for conjugating proteins and DNA using standard EDC/NHS coupling chemistry. | |
Creative Diagnostics | Gold | Suitable for conjugating proteins and DNA using standard EDC/NHS coupling chemistry. | |
Creative Diagnostics | Gold | Suitable for conjugating proteins and DNA using standard EDC/NHS coupling chemistry. | |
Creative Diagnostics | Gold | Suitable for conjugating proteins and DNA using standard EDC/NHS coupling chemistry. | |
Creative Diagnostics | Gold | Suitable for conjugating proteins and DNA using standard EDC/NHS coupling chemistry. | |
Creative Diagnostics | Gold | Suitable for conjugating proteins and DNA using standard EDC/NHS coupling chemistry. | |
Creative Diagnostics | Gold | Suitable for conjugating proteins and DNA using standard EDC/NHS coupling chemistry. | |
Creative Diagnostics | Gold | Suitable for conjugating proteins and DNA using standard EDC/NHS coupling chemistry. | |
Creative Diagnostics | Gold | Suitable for conjugating proteins and DNA using standard EDC/NHS coupling chemistry. | |
Creative Diagnostics | Gold | Suitable for conjugating proteins and DNA using standard EDC/NHS coupling chemistry. | |
Creative Diagnostics | Gold | Suitable for conjugating proteins and DNA using standard EDC/NHS coupling chemistry. | |
Creative Diagnostics | Gold | Suitable for conjugating proteins and DNA using standard EDC/NHS coupling chemistry. | |
Creative Diagnostics | Gold | Suitable for conjugating proteins and DNA using standard EDC/NHS coupling chemistry. | |
Creative Diagnostics | Gold | Suitable for conjugating proteins and DNA using standard EDC/NHS coupling chemistry. | |
Creative Diagnostics | Gold | Suitable for conjugating proteins and DNA using standard EDC/NHS coupling chemistry. | |
Creative Diagnostics | Gold | Suitable for conjugating proteins and DNA using standard EDC/NHS coupling chemistry. | |
Creative Diagnostics | Gold | Suitable for conjugating proteins and DNA using standard EDC/NHS coupling chemistry. | |
Creative Diagnostics | Gold | Suitable for conjugating proteins and DNA using standard EDC/NHS coupling chemistry. | |
Creative Diagnostics | Gold | Ideal for covalent conjugation of antibodies, proteins and other ligands using standard EDC/NHS coupling chemistry. | |
Creative Diagnostics | Gold | Ideal for covalent conjugation of antibodies, proteins and other ligands using standard EDC/NHS coupling chemistry. | |
Creative Diagnostics | Gold | Ideal for covalent conjugation of antibodies, proteins and other ligands using standard EDC/NHS coupling chemistry. | |
Creative Diagnostics | Gold | Ideal for covalent conjugation of antibodies, proteins and other ligands using standard EDC/NHS coupling chemistry. | |
Creative Diagnostics | Gold | Ideal for covalent conjugation of antibodies, proteins and other ligands using standard EDC/NHS coupling chemistry. | |
Creative Diagnostics | Gold | Ideal for covalent conjugation of antibodies, proteins and other ligands using standard EDC/NHS coupling chemistry. | |
Creative Diagnostics | Gold | Ideal for covalent conjugation of antibodies, proteins and other ligands using standard EDC/NHS coupling chemistry. | |
Creative Diagnostics | Gold | Ideal for covalent conjugation of antibodies, proteins and other ligands using standard EDC/NHS coupling chemistry. | |
Creative Diagnostics | Gold | Ideal for covalent conjugation of antibodies, proteins and other ligands using standard EDC/NHS coupling chemistry. | |
Creative Diagnostics | Gold | Ideal for covalent conjugation of antibodies, proteins and other ligands using standard EDC/NHS coupling chemistry. | |
Creative Diagnostics | Gold | Ideal for covalent conjugation of antibodies, proteins and other ligands using standard EDC/NHS coupling chemistry. | |
Creative Diagnostics | Gold | Ideal for covalent conjugation of antibodies, proteins and other ligands using standard EDC/NHS coupling chemistry. | |
Creative Diagnostics | Gold | Ideal for covalent conjugation of antibodies, proteins and other ligands using standard EDC/NHS coupling chemistry. | |
Creative Diagnostics | Gold | Ideal for covalent conjugation of antibodies, proteins and other ligands using standard EDC/NHS coupling chemistry. | |
Creative Diagnostics | Gold | Ideal for covalent conjugation of antibodies, proteins and other ligands using standard EDC/NHS coupling chemistry. | |
Creative Diagnostics | Gold | Ideal for covalent conjugation of antibodies, proteins and other ligands using standard EDC/NHS coupling chemistry. | |
Creative Diagnostics | Gold | Ideal for covalent conjugation of antibodies, proteins and other ligands using standard EDC/NHS coupling chemistry. | |
Creative Diagnostics | Gold | Ideal for covalent conjugation of antibodies, proteins and other ligands using standard EDC/NHS coupling chemistry. | |
Creative Diagnostics | Gold | Ideal for covalent conjugation of antibodies, proteins and other ligands using standard EDC/NHS coupling chemistry. | |
Creative Diagnostics | Gold | Ideal for covalent conjugation of antibodies, proteins and other ligands using standard EDC/NHS coupling chemistry. | |
Creative Diagnostics | Gold | Ideal for covalent conjugation of antibodies, proteins and other ligands using standard EDC/NHS coupling chemistry. | |
Creative Diagnostics | Gold | Ideal for covalent conjugation of antibodies, proteins and other ligands using standard EDC/NHS coupling chemistry. | |
Creative Diagnostics | Gold | Ideal for covalent conjugation of antibodies, proteins and other ligands using standard EDC/NHS coupling chemistry. | |
Creative Diagnostics | Gold | Ideal for covalent conjugation of antibodies, proteins and other ligands using standard EDC/NHS coupling chemistry. | |
Creative Diagnostics | Gold | As negative control to other functionalized gold nanoparticles, e.g. carboxyl, amine and biotin. Ideal for passive tumor targeting studies in vivo. | |
Creative Diagnostics | Gold | As negative control to other functionalized gold nanoparticles, e.g. carboxyl, amine and biotin. Ideal for passive tumor targeting studies in vivo. | |
Creative Diagnostics | Gold | As negative control to other functionalized gold nanoparticles, e.g. carboxyl, amine and biotin. Ideal for passive tumor targeting studies in vivo. | |
Creative Diagnostics | Gold | As negative control to other functionalized gold nanoparticles, e.g. carboxyl, amine and biotin. Ideal for passive tumor targeting studies in vivo. | |
Creative Diagnostics | Gold | As negative control to other functionalized gold nanoparticles, e.g. carboxyl, amine and biotin. Ideal for passive tumor targeting studies in vivo. | |
Creative Diagnostics | Gold | As negative control to other functionalized gold nanoparticles, e.g. carboxyl, amine and biotin. Ideal for passive tumor targeting studies in vivo. | |
Creative Diagnostics | Gold | As negative control to other functionalized gold nanoparticles, e.g. carboxyl, amine and biotin. Ideal for passive tumor targeting studies in vivo. | |
Creative Diagnostics | Gold | As negative control to other functionalized gold nanoparticles, e.g. carboxyl, amine and biotin. Ideal for passive tumor targeting studies in vivo. | |
Creative Diagnostics | Gold | As negative control to other functionalized gold nanoparticles, e.g. carboxyl, amine and biotin. Ideal for passive tumor targeting studies in vivo. | |
Creative Diagnostics | Gold | As negative control to other functionalized gold nanoparticles, e.g. carboxyl, amine and biotin. Ideal for passive tumor targeting studies in vivo. | |
Creative Diagnostics | Gold | As negative control to other functionalized gold nanoparticles, e.g. carboxyl, amine and biotin. Ideal for passive tumor targeting studies in vivo. | |
Creative Diagnostics | Gold | As negative control to other functionalized gold nanoparticles, e.g. carboxyl, amine and biotin. Ideal for passive tumor targeting studies in vivo. | |
Creative Diagnostics | Gold | As negative control to other functionalized gold nanoparticles, e.g. carboxyl, amine and biotin. Ideal for passive tumor targeting studies in vivo. | |
Creative Diagnostics | Gold | As negative control to other functionalized gold nanoparticles, e.g. carboxyl, amine and biotin. Ideal for passive tumor targeting studies in vivo. | |
Creative Diagnostics | Gold | As negative control to other functionalized gold nanoparticles, e.g. carboxyl, amine and biotin. Ideal for passive tumor targeting studies in vivo. | |
Creative Diagnostics | Gold | As negative control to other functionalized gold nanoparticles, e.g. carboxyl, amine and biotin. Ideal for passive tumor targeting studies in vivo. | |
Creative Diagnostics | Gold | As negative control to other functionalized gold nanoparticles, e.g. carboxyl, amine and biotin. Ideal for passive tumor targeting studies in vivo. | |
Creative Diagnostics | Gold | As negative control to other functionalized gold nanoparticles, e.g. carboxyl, amine and biotin. Ideal for passive tumor targeting studies in vivo. | |
Creative Diagnostics | Gold | As negative control to other functionalized gold nanoparticles, e.g. carboxyl, amine and biotin. Ideal for passive tumor targeting studies in vivo. | |
Creative Diagnostics | Gold | As negative control to other functionalized gold nanoparticles, e.g. carboxyl, amine and biotin. Ideal for passive tumor targeting studies in vivo. | |
Creative Diagnostics | Gold | As negative control to other functionalized gold nanoparticles, e.g. carboxyl, amine and biotin. Ideal for passive tumor targeting studies in vivo. | |
Creative Diagnostics | Gold | As negative control to other functionalized gold nanoparticles, e.g. carboxyl, amine and biotin. Ideal for passive tumor targeting studies in vivo. | |
Creative Diagnostics | Gold | As negative control to other functionalized gold nanoparticles, e.g. carboxyl, amine and biotin. Ideal for passive tumor targeting studies in vivo. | |
Creative Diagnostics | Gold | As negative control to other functionalized gold nanoparticles, e.g. carboxyl, amine and biotin. Ideal for passive tumor targeting studies in vivo. | |
Creative Diagnostics | Gold | Ideal for use in dark-field microscopy, electron microscopy, SERS and drug delivery. | |
Creative Diagnostics | Gold | Ideal for use in dark-field microscopy, electron microscopy, SERS and drug delivery. | |
Creative Diagnostics | Gold | Ideal for use in dark-field microscopy, electron microscopy, SERS and drug delivery. | |
Creative Diagnostics | Gold | Ideal for use in dark-field microscopy, electron microscopy, SERS and drug delivery. | |
Creative Diagnostics | Gold | Ideal for use in dark-field microscopy, electron microscopy, SERS and drug delivery. | |
Creative Diagnostics | Gold | Ideal for use in dark-field microscopy, electron microscopy, SERS and drug delivery. | |
Creative Diagnostics | Gold | Ideal for use in dark-field microscopy, electron microscopy, SERS and drug delivery. | |
Creative Diagnostics | Gold | Ideal for use in dark-field microscopy, electron microscopy, SERS and drug delivery. | |
Creative Diagnostics | Gold | Ideal for use in dark-field microscopy, electron microscopy, SERS and drug delivery. | |
Creative Diagnostics | Gold | Ideal for use in dark-field microscopy, electron microscopy, SERS and drug delivery. | |
Creative Diagnostics | Gold | Ideal for use in dark-field microscopy, electron microscopy, SERS and drug delivery. | |
Creative Diagnostics | Gold | Ideal for use in dark-field microscopy, electron microscopy, SERS and drug delivery. | |
Creative Diagnostics | Gold | Ideal for use in dark-field microscopy, electron microscopy, SERS and drug delivery. | |
Creative Diagnostics | Gold | Ideal for use in dark-field microscopy, electron microscopy, SERS and drug delivery. | |
Creative Diagnostics | Gold | Ideal for use in dark-field microscopy, electron microscopy, SERS and drug delivery. | |
Creative Diagnostics | Gold | Ideal for use in dark-field microscopy, electron microscopy, SERS and drug delivery. | |
Creative Diagnostics | Gold | Ideal for use in dark-field microscopy, electron microscopy, SERS and drug delivery. | |
Creative Diagnostics | Gold | Ideal for use in dark-field microscopy, electron microscopy, SERS and drug delivery. | |
Creative Diagnostics | Gold | Application in sensors, solar cells, flexible optical polarizers and filters, spin coating, negative refractive index materials, liquid crystals, security anti-forge materials. | |
Creative Diagnostics | Gold | Application in sensors, solar cells, flexible optical polarizers and filters, spin coating, negative refractive index materials, liquid crystals, security anti-forge materials. | |
Creative Diagnostics | Gold | The purest gold nanoparticles ideal for further functionalization and biological applicatoins sush as SERS and fluorescent imaging. | |
Creative Diagnostics | Gold | The purest gold nanoparticles ideal for further functionalization and biological applicatoins sush as SERS and fluorescent imaging. | |
Creative Diagnostics | Gold | The purest gold nanoparticles ideal for further functionalization and biological applicatoins sush as SERS and fluorescent imaging. | |
Creative Diagnostics | Gold | The purest gold nanoparticles ideal for further functionalization and biological applicatoins sush as SERS and fluorescent imaging. | |
Creative Diagnostics | Gold | The purest gold nanoparticles ideal for further functionalization and biological applicatoins sush as SERS and fluorescent imaging. | |
Creative Diagnostics | Gold | The purest gold nanoparticles ideal for further functionalization and biological applicatoins sush as SERS and fluorescent imaging. | |
Creative Diagnostics | Gold | The purest gold nanoparticles ideal for further functionalization and biological applicatoins sush as SERS and fluorescent imaging. | |
Creative Diagnostics | Gold | The purest gold nanoparticles ideal for further functionalization and biological applicatoins sush as SERS and fluorescent imaging. | |
Creative Diagnostics | Gold | Ideal for adsorption of thiolated ligands such as oligonucleotides and polyethylene glycols. Also ideal for use in physical and optical applications due to the increased stability. | |
Creative Diagnostics | Gold | Ideal for adsorption of thiolated ligands such as oligonucleotides and polyethylene glycols. Also ideal for use in physical and optical applications due to the increased stability. | |
Creative Diagnostics | Gold | Ideal for adsorption of thiolated ligands such as oligonucleotides and polyethylene glycols. Also ideal for use in physical and optical applications due to the increased stability. | |
Creative Diagnostics | Gold | Ideal for adsorption of thiolated ligands such as oligonucleotides and polyethylene glycols. Also ideal for use in physical and optical applications due to the increased stability. | |
Creative Diagnostics | Gold | Ideal for adsorption of thiolated ligands such as oligonucleotides and polyethylene glycols. Also ideal for use in physical and optical applications due to the increased stability. | |
Creative Diagnostics | Gold | Ideal for adsorption of thiolated ligands such as oligonucleotides and polyethylene glycols. Also ideal for use in physical and optical applications due to the increased stability. | |
Creative Diagnostics | Gold | Ideal for adsorption of thiolated ligands such as oligonucleotides and polyethylene glycols. Also ideal for use in physical and optical applications due to the increased stability. | |
Creative Diagnostics | Gold | Ideal for adsorption of thiolated ligands such as oligonucleotides and polyethylene glycols. Also ideal for use in physical and optical applications due to the increased stability. | |
Creative Diagnostics | Gold | Ideal for adsorption of thiolated ligands such as oligonucleotides and polyethylene glycols. Also ideal for use in physical and optical applications due to the increased stability. | |
Creative Diagnostics | Gold | Ideal for adsorption of thiolated ligands such as oligonucleotides and polyethylene glycols. Also ideal for use in physical and optical applications due to the increased stability. | |
Creative Diagnostics | Gold | Ideal for adsorption of thiolated ligands such as oligonucleotides and polyethylene glycols. Also ideal for use in physical and optical applications due to the increased stability. | |
Creative Diagnostics | Gold | Ideal for adsorption of thiolated ligands such as oligonucleotides and polyethylene glycols. Also ideal for use in physical and optical applications due to the increased stability. | |
Creative Diagnostics | Gold | Ideal for adsorption of thiolated ligands such as oligonucleotides and polyethylene glycols. Also ideal for use in physical and optical applications due to the increased stability. | |
Creative Diagnostics | Gold | Ideal for adsorption of thiolated ligands such as oligonucleotides and polyethylene glycols. Also ideal for use in physical and optical applications due to the increased stability. | |
Creative Diagnostics | Gold | Ideal for adsorption of thiolated ligands such as oligonucleotides and polyethylene glycols. Also ideal for use in physical and optical applications due to the increased stability. | |
Creative Diagnostics | Gold | Ideal for adsorption of thiolated ligands such as oligonucleotides and polyethylene glycols. Also ideal for use in physical and optical applications due to the increased stability. | |
Creative Diagnostics | Gold | Ideal for adsorption of thiolated ligands such as oligonucleotides and polyethylene glycols. Also ideal for use in physical and optical applications due to the increased stability. | |
Creative Diagnostics | Gold | Passive adsorption of proteins and other ligands to form gold nanoparticle conjugates, which can be used in blotting, electron microscopy and immunohistochemistry applications. | |
Creative Diagnostics | Gold | Passive adsorption of proteins and other ligands to form gold nanoparticle conjugates, which can be used in blotting, electron microscopy and immunohistochemistry applications. | |
Creative Diagnostics | Gold | Passive adsorption of proteins and other ligands to form gold nanoparticle conjugates, which can be used in blotting, electron microscopy and immunohistochemistry applications. | |
Creative Diagnostics | Gold | Passive adsorption of proteins and other ligands to form gold nanoparticle conjugates, which can be used in blotting, electron microscopy and immunohistochemistry applications. | |
Creative Diagnostics | Gold | Passive adsorption of proteins and other ligands to form gold nanoparticle conjugates, which can be used in blotting, electron microscopy and immunohistochemistry applications. | |
Creative Diagnostics | Gold | Passive adsorption of proteins and other ligands to form gold nanoparticle conjugates, which can be used in blotting, electron microscopy and immunohistochemistry applications. | |
Creative Diagnostics | Gold | Passive adsorption of proteins and other ligands to form gold nanoparticle conjugates, which can be used in blotting, electron microscopy and immunohistochemistry applications. | |
Creative Diagnostics | Gold | Passive adsorption of proteins and other ligands to form gold nanoparticle conjugates, which can be used in blotting, electron microscopy and immunohistochemistry applications. | |
Creative Diagnostics | Gold | Passive adsorption of proteins and other ligands to form gold nanoparticle conjugates, which can be used in blotting, electron microscopy and immunohistochemistry applications. | |
Creative Diagnostics | Gold | Passive adsorption of proteins and other ligands to form gold nanoparticle conjugates, which can be used in blotting, electron microscopy and immunohistochemistry applications. | |
Creative Diagnostics | Gold | Passive adsorption of proteins and other ligands to form gold nanoparticle conjugates, which can be used in blotting, electron microscopy and immunohistochemistry applications. | |
Creative Diagnostics | Gold | Passive adsorption of proteins and other ligands to form gold nanoparticle conjugates, which can be used in blotting, electron microscopy and immunohistochemistry applications. | |
Creative Diagnostics | Gold | Passive adsorption of proteins and other ligands to form gold nanoparticle conjugates, which can be used in blotting, electron microscopy and immunohistochemistry applications. | |
Creative Diagnostics | Gold | Passive adsorption of proteins and other ligands to form gold nanoparticle conjugates, which can be used in blotting, electron microscopy and immunohistochemistry applications. | |
Creative Diagnostics | Gold | Passive adsorption of proteins and other ligands to form gold nanoparticle conjugates, which can be used in blotting, electron microscopy and immunohistochemistry applications. | |
Creative Diagnostics | Gold | Passive adsorption of proteins and other ligands to form gold nanoparticle conjugates, which can be used in blotting, electron microscopy and immunohistochemistry applications. | |
Creative Diagnostics | Gold | Passive adsorption of proteins and other ligands to form gold nanoparticle conjugates, which can be used in blotting, electron microscopy and immunohistochemistry applications. | |
Creative Diagnostics | Gold | DiagNano Organic Gold Nanorods have applications in sensors, solar cells, flexible optical polarizers and filters, spin coating, negative refractive index materials, liquid crystals, security anti-forge materials. | |
Creative Diagnostics | Gold | DiagNano Organic Gold Nanorods have applications in sensors, solar cells, flexible optical polarizers and filters, spin coating, negative refractive index materials, liquid crystals, security anti-forge materials. | |
Creative Diagnostics | Gold | DiagNano Organic Gold Nanorods have applications in sensors, solar cells, flexible optical polarizers and filters, spin coating, negative refractive index materials, liquid crystals, security anti-forge materials. | |
Creative Diagnostics | Gold | DiagNano Organic Gold Nanorods have applications in sensors, solar cells, flexible optical polarizers and filters, spin coating, negative refractive index materials, liquid crystals, security anti-forge materials. | |
Creative Diagnostics | Gold | DiagNano Organic Gold Nanorods have applications in sensors, solar cells, flexible optical polarizers and filters, spin coating, negative refractive index materials, liquid crystals, security anti-forge materials. | |
Creative Diagnostics | Gold | DiagNano Organic Gold Nanorods have applications in sensors, solar cells, flexible optical polarizers and filters, spin coating, negative refractive index materials, liquid crystals, security anti-forge materials. | |
Creative Diagnostics | Gold | DiagNano Organic Gold Nanorods have applications in sensors, solar cells, flexible optical polarizers and filters, spin coating, negative refractive index materials, liquid crystals, security anti-forge materials. | |
Creative Diagnostics | Gold | DiagNano Organic Gold Nanorods have applications in sensors, solar cells, flexible optical polarizers and filters, spin coating, negative refractive index materials, liquid crystals, security anti-forge materials. | |
Creative Diagnostics | Gold | DiagNano Organic Gold Nanorods have applications in sensors, solar cells, flexible optical polarizers and filters, spin coating, negative refractive index materials, liquid crystals, security anti-forge materials. | |
Creative Diagnostics | Gold | DiagNano Organic Gold Nanorods have applications in sensors, solar cells, flexible optical polarizers and filters, spin coating, negative refractive index materials, liquid crystals, security anti-forge materials. | |
Creative Diagnostics | Gold | DiagNano Organic Gold Nanorods have applications in sensors, solar cells, flexible optical polarizers and filters, spin coating, negative refractive index materials, liquid crystals, security anti-forge materials. | |
Creative Diagnostics | Gold | DiagNano Organic Gold Nanorods have applications in sensors, solar cells, flexible optical polarizers and filters, spin coating, negative refractive index materials, liquid crystals, security anti-forge materials. | |
Creative Diagnostics | Gold | DiagNano Organic Gold Nanorods have applications in sensors, solar cells, flexible optical polarizers and filters, spin coating, negative refractive index materials, liquid crystals, security anti-forge materials. | |
Creative Diagnostics | Gold | DiagNano Organic Gold Nanorods have applications in sensors, solar cells, flexible optical polarizers and filters, spin coating, negative refractive index materials, liquid crystals, security anti-forge materials. | |
Creative Diagnostics | Gold | DiagNano Organic Gold Nanorods have applications in sensors, solar cells, flexible optical polarizers and filters, spin coating, negative refractive index materials, liquid crystals, security anti-forge materials. | |
Creative Diagnostics | Gold | DiagNano Organic Gold Nanorods have applications in sensors, solar cells, flexible optical polarizers and filters, spin coating, negative refractive index materials, liquid crystals, security anti-forge materials. | |
Creative Diagnostics | Gold | DiagNano Organic Gold Nanorods have applications in sensors, solar cells, flexible optical polarizers and filters, spin coating, negative refractive index materials, liquid crystals, security anti-forge materials. | |
Creative Diagnostics | Gold | Ideal for use in photoacoustic imaging, two-photon imaging, SERS, drug delivery and photothermal therapy. | |
Creative Diagnostics | Gold | Ideal for use in photoacoustic imaging, two-photon imaging, SERS, drug delivery and photothermal therapy. | |
Creative Diagnostics | Gold | Ideal for use in photoacoustic imaging, two-photon imaging, SERS, drug delivery and photothermal therapy. | |
Creative Diagnostics | Gold | Ideal for use in photoacoustic imaging, two-photon imaging, SERS, drug delivery and photothermal therapy. | |
Creative Diagnostics | Gold | Ideal for use in photoacoustic imaging, two-photon imaging, SERS, drug delivery and photothermal therapy. | |
Creative Diagnostics | Gold | Ideal for use in photoacoustic imaging, two-photon imaging, SERS, drug delivery and photothermal therapy. | |
Creative Diagnostics | Gold | Ideal for use in photoacoustic imaging, two-photon imaging, SERS, drug delivery and photothermal therapy. | |
Creative Diagnostics | Gold | Ideal for use in photoacoustic imaging, two-photon imaging, SERS, drug delivery and photothermal therapy. | |
Creative Diagnostics | Gold | Ideal for use in photoacoustic imaging, two-photon imaging, SERS, drug delivery and photothermal therapy. | |
Creative Diagnostics | Gold | Ideal for use in photoacoustic imaging, two-photon imaging, SERS, drug delivery and photothermal therapy. | |
Creative Diagnostics | Gold | Ideal for use in photoacoustic imaging, two-photon imaging, SERS, drug delivery and photothermal therapy. | |
Creative Diagnostics | Gold | Ideal for use in photoacoustic imaging, two-photon imaging, SERS, drug delivery and photothermal therapy. | |
Creative Diagnostics | Gold | Ideal for use in photoacoustic imaging, two-photon imaging, SERS, drug delivery and photothermal therapy. | |
Creative Diagnostics | Gold | Ideal for use in photoacoustic imaging, two-photon imaging, SERS, drug delivery and photothermal therapy. | |
Creative Diagnostics | Gold | Ideal for use in photoacoustic imaging, two-photon imaging, SERS, drug delivery and photothermal therapy. | |
Creative Diagnostics | Gold | Ideal for use in photoacoustic imaging, two-photon imaging, SERS, drug delivery and photothermal therapy. | |
Creative Diagnostics | Gold | DiagNano Methyl Gold Nanorods are ideal for passive tumor targeting studies in vivo, and also used as negative control to other functionalized gold nanoparticles, e.g. carboxyl, amine and biotin. | |
Creative Diagnostics | Gold | DiagNano Methyl Gold Nanorods are ideal for passive tumor targeting studies in vivo, and also used as negative control to other functionalized gold nanoparticles, e.g. carboxyl, amine and biotin. | |
Creative Diagnostics | Gold | DiagNano Methyl Gold Nanorods are ideal for passive tumor targeting studies in vivo, and also used as negative control to other functionalized gold nanoparticles, e.g. carboxyl, amine and biotin. | |
Creative Diagnostics | Gold | DiagNano Methyl Gold Nanorods are ideal for passive tumor targeting studies in vivo, and also used as negative control to other functionalized gold nanoparticles, e.g. carboxyl, amine and biotin. | |
Creative Diagnostics | Gold | DiagNano Methyl Gold Nanorods are ideal for passive tumor targeting studies in vivo, and also used as negative control to other functionalized gold nanoparticles, e.g. carboxyl, amine and biotin. | |
Creative Diagnostics | Gold | DiagNano Methyl Gold Nanorods are ideal for passive tumor targeting studies in vivo, and also used as negative control to other functionalized gold nanoparticles, e.g. carboxyl, amine and biotin. | |
Creative Diagnostics | Gold | DiagNano Methyl Gold Nanorods are ideal for passive tumor targeting studies in vivo, and also used as negative control to other functionalized gold nanoparticles, e.g. carboxyl, amine and biotin. | |
Creative Diagnostics | Gold | DiagNano Methyl Gold Nanorods are ideal for passive tumor targeting studies in vivo, and also used as negative control to other functionalized gold nanoparticles, e.g. carboxyl, amine and biotin. | |
Creative Diagnostics | Gold | DiagNano Methyl Gold Nanorods are ideal for passive tumor targeting studies in vivo, and also used as negative control to other functionalized gold nanoparticles, e.g. carboxyl, amine and biotin. | |
Creative Diagnostics | Gold | DiagNano Methyl Gold Nanorods are ideal for passive tumor targeting studies in vivo, and also used as negative control to other functionalized gold nanoparticles, e.g. carboxyl, amine and biotin. | |
Creative Diagnostics | Gold | DiagNano Methyl Gold Nanorods are ideal for passive tumor targeting studies in vivo, and also used as negative control to other functionalized gold nanoparticles, e.g. carboxyl, amine and biotin. | |
Creative Diagnostics | Gold | DiagNano Methyl Gold Nanorods are ideal for passive tumor targeting studies in vivo, and also used as negative control to other functionalized gold nanoparticles, e.g. carboxyl, amine and biotin. | |
Creative Diagnostics | Gold | DiagNano Methyl Gold Nanorods are ideal for passive tumor targeting studies in vivo, and also used as negative control to other functionalized gold nanoparticles, e.g. carboxyl, amine and biotin. | |
Creative Diagnostics | Gold | DiagNano Methyl Gold Nanorods are ideal for passive tumor targeting studies in vivo, and also used as negative control to other functionalized gold nanoparticles, e.g. carboxyl, amine and biotin. | |
Creative Diagnostics | Gold | DiagNano Methyl Gold Nanorods are ideal for passive tumor targeting studies in vivo, and also used as negative control to other functionalized gold nanoparticles, e.g. carboxyl, amine and biotin. | |
Creative Diagnostics | Gold | DiagNano Methyl Gold Nanorods are ideal for passive tumor targeting studies in vivo, and also used as negative control to other functionalized gold nanoparticles, e.g. carboxyl, amine and biotin. | |
Creative Diagnostics | Gold | DiagNano Methyl Gold Nanorods are ideal for passive tumor targeting studies in vivo, and also used as negative control to other functionalized gold nanoparticles, e.g. carboxyl, amine and biotin. | |
Creative Diagnostics | Gold | DiagNano Methyl Gold Nanorods are ideal for passive tumor targeting studies in vivo, and also used as negative control to other functionalized gold nanoparticles, e.g. carboxyl, amine and biotin. | |
Creative Diagnostics | Gold | DiagNano Methyl Gold Nanorods are ideal for passive tumor targeting studies in vivo, and also used as negative control to other functionalized gold nanoparticles, e.g. carboxyl, amine and biotin. | |
Creative Diagnostics | Gold | DiagNano Methyl Gold Nanorods are ideal for passive tumor targeting studies in vivo, and also used as negative control to other functionalized gold nanoparticles, e.g. carboxyl, amine and biotin. | |
Creative Diagnostics | Gold | DiagNano Methyl Gold Nanorods are ideal for passive tumor targeting studies in vivo, and also used as negative control to other functionalized gold nanoparticles, e.g. carboxyl, amine and biotin. | |
Creative Diagnostics | Gold | DiagNano Methyl Gold Nanorods are ideal for passive tumor targeting studies in vivo, and also used as negative control to other functionalized gold nanoparticles, e.g. carboxyl, amine and biotin. | |
Creative Diagnostics | Gold | DiagNano Methyl Gold Nanorods are ideal for passive tumor targeting studies in vivo, and also used as negative control to other functionalized gold nanoparticles, e.g. carboxyl, amine and biotin. | |
Creative Diagnostics | Gold | DiagNano Carboxyl Gold Nanorods are ideal for covalent conjugation of proteins or other ligands to the nanorod surface using standard EDC/NHS chemistry. | |
Creative Diagnostics | Gold | DiagNano Carboxyl Gold Nanorods are ideal for covalent conjugation of proteins or other ligands to the nanorod surface using standard EDC/NHS chemistry. | |
Creative Diagnostics | Gold | DiagNano Carboxyl Gold Nanorods are ideal for covalent conjugation of proteins or other ligands to the nanorod surface using standard EDC/NHS chemistry. | |
Creative Diagnostics | Gold | DiagNano Carboxyl Gold Nanorods are ideal for covalent conjugation of proteins or other ligands to the nanorod surface using standard EDC/NHS chemistry. | |
Creative Diagnostics | Gold | DiagNano Carboxyl Gold Nanorods are ideal for covalent conjugation of proteins or other ligands to the nanorod surface using standard EDC/NHS chemistry. | |
Creative Diagnostics | Gold | DiagNano Carboxyl Gold Nanorods are ideal for covalent conjugation of proteins or other ligands to the nanorod surface using standard EDC/NHS chemistry. | |
Creative Diagnostics | Gold | DiagNano Carboxyl Gold Nanorods are ideal for covalent conjugation of proteins or other ligands to the nanorod surface using standard EDC/NHS chemistry. | |
Creative Diagnostics | Gold | DiagNano Carboxyl Gold Nanorods are ideal for covalent conjugation of proteins or other ligands to the nanorod surface using standard EDC/NHS chemistry. | |
Creative Diagnostics | Gold | DiagNano Carboxyl Gold Nanorods are ideal for covalent conjugation of proteins or other ligands to the nanorod surface using standard EDC/NHS chemistry. | |
Creative Diagnostics | Gold | DiagNano Carboxyl Gold Nanorods are ideal for covalent conjugation of proteins or other ligands to the nanorod surface using standard EDC/NHS chemistry. | |
Creative Diagnostics | Gold | DiagNano Carboxyl Gold Nanorods are ideal for covalent conjugation of proteins or other ligands to the nanorod surface using standard EDC/NHS chemistry. | |
Creative Diagnostics | Gold | DiagNano Carboxyl Gold Nanorods are ideal for covalent conjugation of proteins or other ligands to the nanorod surface using standard EDC/NHS chemistry. | |
Creative Diagnostics | Gold | DiagNano Carboxyl Gold Nanorods are ideal for covalent conjugation of proteins or other ligands to the nanorod surface using standard EDC/NHS chemistry. | |
Creative Diagnostics | Gold | DiagNano Carboxyl Gold Nanorods are ideal for covalent conjugation of proteins or other ligands to the nanorod surface using standard EDC/NHS chemistry. | |
Creative Diagnostics | Gold | DiagNano Carboxyl Gold Nanorods are ideal for covalent conjugation of proteins or other ligands to the nanorod surface using standard EDC/NHS chemistry. | |
Creative Diagnostics | Gold | DiagNano Carboxyl Gold Nanorods are ideal for covalent conjugation of proteins or other ligands to the nanorod surface using standard EDC/NHS chemistry. | |
Creative Diagnostics | Gold | DiagNano Carboxyl Gold Nanorods are ideal for covalent conjugation of proteins or other ligands to the nanorod surface using standard EDC/NHS chemistry. | |
Creative Diagnostics | Gold | DiagNano Carboxyl Gold Nanorods are ideal for covalent conjugation of proteins or other ligands to the nanorod surface using standard EDC/NHS chemistry. | |
Creative Diagnostics | Gold | DiagNano Carboxyl Gold Nanorods are ideal for covalent conjugation of proteins or other ligands to the nanorod surface using standard EDC/NHS chemistry. | |
Creative Diagnostics | Gold | DiagNano Carboxyl Gold Nanorods are ideal for covalent conjugation of proteins or other ligands to the nanorod surface using standard EDC/NHS chemistry. | |
Creative Diagnostics | Gold | DiagNano Carboxyl Gold Nanorods are ideal for covalent conjugation of proteins or other ligands to the nanorod surface using standard EDC/NHS chemistry. | |
Creative Diagnostics | Gold | DiagNano Carboxyl Gold Nanorods are ideal for covalent conjugation of proteins or other ligands to the nanorod surface using standard EDC/NHS chemistry. | |
Creative Diagnostics | Gold | DiagNano Carboxyl Gold Nanorods are ideal for covalent conjugation of proteins or other ligands to the nanorod surface using standard EDC/NHS chemistry. | |
Creative Diagnostics | Gold | DiagNano Amine Gold Nanorods are suitable for conjugation of proteins and DNA using standard EDC/NHS coupling chemistry. | |
Creative Diagnostics | Gold | DiagNano Amine Gold Nanorods are suitable for conjugation of proteins and DNA using standard EDC/NHS coupling chemistry. | |
Creative Diagnostics | Gold | DiagNano Amine Gold Nanorods are suitable for conjugation of proteins and DNA using standard EDC/NHS coupling chemistry. | |
Creative Diagnostics | Gold | DiagNano Amine Gold Nanorods are suitable for conjugation of proteins and DNA using standard EDC/NHS coupling chemistry. | |
Creative Diagnostics | Gold | DiagNano Amine Gold Nanorods are suitable for conjugation of proteins and DNA using standard EDC/NHS coupling chemistry. | |
Creative Diagnostics | Gold | DiagNano Amine Gold Nanorods are suitable for conjugation of proteins and DNA using standard EDC/NHS coupling chemistry. | |
Creative Diagnostics | Gold | DiagNano Amine Gold Nanorods are suitable for conjugation of proteins and DNA using standard EDC/NHS coupling chemistry. | |
Creative Diagnostics | Gold | DiagNano Amine Gold Nanorods are suitable for conjugation of proteins and DNA using standard EDC/NHS coupling chemistry. | |
Creative Diagnostics | Gold | DiagNano Amine Gold Nanorods are suitable for conjugation of proteins and DNA using standard EDC/NHS coupling chemistry. | |
Creative Diagnostics | Gold | DiagNano Amine Gold Nanorods are suitable for conjugation of proteins and DNA using standard EDC/NHS coupling chemistry. | |
Creative Diagnostics | Gold | DiagNano Amine Gold Nanorods are suitable for conjugation of proteins and DNA using standard EDC/NHS coupling chemistry. | |
Creative Diagnostics | Gold | DiagNano Amine Gold Nanorods are suitable for conjugation of proteins and DNA using standard EDC/NHS coupling chemistry. | |
Creative Diagnostics | Gold | DiagNano Amine Gold Nanorods are suitable for conjugation of proteins and DNA using standard EDC/NHS coupling chemistry. | |
Creative Diagnostics | Gold | DiagNano Amine Gold Nanorods are suitable for conjugation of proteins and DNA using standard EDC/NHS coupling chemistry. | |
Creative Diagnostics | Gold | DiagNano Amine Gold Nanorods are suitable for conjugation of proteins and DNA using standard EDC/NHS coupling chemistry. | |
Creative Diagnostics | Gold | DiagNano Amine Gold Nanorods are suitable for conjugation of proteins and DNA using standard EDC/NHS coupling chemistry. | |
Creative Diagnostics | Gold | DiagNano Amine Gold Nanorods are suitable for conjugation of proteins and DNA using standard EDC/NHS coupling chemistry. | |
Creative Diagnostics | Gold | DiagNano Amine Gold Nanorods are suitable for conjugation of proteins and DNA using standard EDC/NHS coupling chemistry. | |
Creative Diagnostics | Gold | DiagNano Amine Gold Nanorods are suitable for conjugation of proteins and DNA using standard EDC/NHS coupling chemistry. | |
Creative Diagnostics | Gold | DiagNano Amine Gold Nanorods are suitable for conjugation of proteins and DNA using standard EDC/NHS coupling chemistry. | |
Creative Diagnostics | Gold | DiagNano Amine Gold Nanorods are suitable for conjugation of proteins and DNA using standard EDC/NHS coupling chemistry. | |
Creative Diagnostics | Gold | DiagNano Amine Gold Nanorods are suitable for conjugation of proteins and DNA using standard EDC/NHS coupling chemistry. | |
Creative Diagnostics | Gold | DiagNano Amine Gold Nanorods are suitable for conjugation of proteins and DNA using standard EDC/NHS coupling chemistry. | |
Creative Diagnostics | Gold | DiagNano NHS-Activated Gold Nanorods are suitable for convenient one-step covalent conjugation of proteins and other amine containing ligands. | |
Creative Diagnostics | Gold | DiagNano NHS-Activated Gold Nanorods are suitable for convenient one-step covalent conjugation of proteins and other amine containing ligands. | |
Creative Diagnostics | Gold | DiagNano NHS-Activated Gold Nanorods are suitable for convenient one-step covalent conjugation of proteins and other amine containing ligands. | |
Creative Diagnostics | Gold | DiagNano NHS-Activated Gold Nanorods are suitable for convenient one-step covalent conjugation of proteins and other amine containing ligands. | |
Creative Diagnostics | Gold | DiagNano NHS-Activated Gold Nanorods are suitable for convenient one-step covalent conjugation of proteins and other amine containing ligands. | |
Creative Diagnostics | Gold | DiagNano NHS-Activated Gold Nanorods are suitable for convenient one-step covalent conjugation of proteins and other amine containing ligands. | |
Creative Diagnostics | Gold | DiagNano NHS-Activated Gold Nanorods are suitable for convenient one-step covalent conjugation of proteins and other amine containing ligands. | |
Creative Diagnostics | Gold | DiagNano NHS-Activated Gold Nanorods are suitable for convenient one-step covalent conjugation of proteins and other amine containing ligands. | |
Creative Diagnostics | Gold | DiagNano NHS-Activated Gold Nanorods are suitable for convenient one-step covalent conjugation of proteins and other amine containing ligands. | |
Creative Diagnostics | Gold | DiagNano NHS-Activated Gold Nanorods are suitable for convenient one-step covalent conjugation of proteins and other amine containing ligands. | |
Creative Diagnostics | Gold | DiagNano NHS-Activated Gold Nanorods are suitable for convenient one-step covalent conjugation of proteins and other amine containing ligands. | |
Creative Diagnostics | Gold | DiagNano NHS-Activated Gold Nanorods are suitable for convenient one-step covalent conjugation of proteins and other amine containing ligands. | |
Creative Diagnostics | Gold | DiagNano NHS-Activated Gold Nanorods are suitable for convenient one-step covalent conjugation of proteins and other amine containing ligands. | |
Creative Diagnostics | Gold | DiagNano NHS-Activated Gold Nanorods are suitable for convenient one-step covalent conjugation of proteins and other amine containing ligands. | |
Creative Diagnostics | Gold | DiagNano NHS-Activated Gold Nanorods are suitable for convenient one-step covalent conjugation of proteins and other amine containing ligands. | |
Creative Diagnostics | Gold | DiagNano NHS-Activated Gold Nanorods are suitable for convenient one-step covalent conjugation of proteins and other amine containing ligands. | |
Creative Diagnostics | Gold | DiagNano NHS-Activated Gold Nanorods are suitable for convenient one-step covalent conjugation of proteins and other amine containing ligands. | |
Creative Diagnostics | Gold | DiagNano NHS-Activated Gold Nanorods are suitable for convenient one-step covalent conjugation of proteins and other amine containing ligands. | |
Creative Diagnostics | Gold | DiagNano NHS-Activated Gold Nanorods are suitable for convenient one-step covalent conjugation of proteins and other amine containing ligands. | |
Creative Diagnostics | Gold | DiagNano NHS-Activated Gold Nanorods are suitable for convenient one-step covalent conjugation of proteins and other amine containing ligands. | |
Creative Diagnostics | Gold | DiagNano NHS-Activated Gold Nanorods are suitable for convenient one-step covalent conjugation of proteins and other amine containing ligands. | |
Creative Diagnostics | Gold | DiagNano NHS-Activated Gold Nanorods are suitable for convenient one-step covalent conjugation of proteins and other amine containing ligands. | |
Creative Diagnostics | Gold | DiagNano NHS-Activated Gold Nanorods are suitable for convenient one-step covalent conjugation of proteins and other amine containing ligands. | |
Creative Diagnostics | Gold | Ideal for binding and detection of streptavidin in applications such as imaging, drug targeting and immunoassay. | |
Creative Diagnostics | Gold | Ideal for binding and detection of streptavidin in applications such as imaging, drug targeting and immunoassay. | |
Creative Diagnostics | Gold | Ideal for binding and detection of streptavidin in applications such as imaging, drug targeting and immunoassay. | |
Creative Diagnostics | Gold | Ideal for binding and detection of streptavidin in applications such as imaging, drug targeting and immunoassay. | |
Creative Diagnostics | Gold | Ideal for binding and detection of streptavidin in applications such as imaging, drug targeting and immunoassay. | |
Creative Diagnostics | Gold | Ideal for binding and detection of streptavidin in applications such as imaging, drug targeting and immunoassay. | |
Creative Diagnostics | Gold | Ideal for binding and detection of streptavidin in applications such as imaging, drug targeting and immunoassay. | |
Creative Diagnostics | Gold | Ideal for binding and detection of streptavidin in applications such as imaging, drug targeting and immunoassay. | |
Creative Diagnostics | Gold | Ideal for binding and detection of streptavidin in applications such as imaging, drug targeting and immunoassay. | |
Creative Diagnostics | Gold | Ideal for binding and detection of streptavidin in applications such as imaging, drug targeting and immunoassay. | |
Creative Diagnostics | Gold | Ideal for binding and detection of streptavidin in applications such as imaging, drug targeting and immunoassay. | |
Creative Diagnostics | Gold | Ideal for binding and detection of streptavidin in applications such as imaging, drug targeting and immunoassay. | |
Creative Diagnostics | Gold | Ideal for binding and detection of streptavidin in applications such as imaging, drug targeting and immunoassay. | |
Creative Diagnostics | Gold | Ideal for binding and detection of streptavidin in applications such as imaging, drug targeting and immunoassay. | |
Creative Diagnostics | Gold | Ideal for binding and detection of streptavidin in applications such as imaging, drug targeting and immunoassay. | |
Creative Diagnostics | Gold | Ideal for binding and detection of streptavidin in applications such as imaging, drug targeting and immunoassay. | |
Creative Diagnostics | Gold | Ideal for binding and detection of streptavidin in applications such as imaging, drug targeting and immunoassay. | |
Creative Diagnostics | Gold | Ideal for binding and detection of streptavidin in applications such as imaging, drug targeting and immunoassay. | |
Creative Diagnostics | Gold | Ideal for binding and detection of streptavidin in applications such as imaging, drug targeting and immunoassay. | |
Creative Diagnostics | Gold | Ideal for binding and detection of streptavidin in applications such as imaging, drug targeting and immunoassay. | |
Creative Diagnostics | Gold | Ideal for binding and detection of streptavidin in applications such as imaging, drug targeting and immunoassay. | |
Creative Diagnostics | Gold | Ideal for binding and detection of streptavidin in applications such as imaging, drug targeting and immunoassay. | |
Creative Diagnostics | Gold | Ideal for binding and detection of streptavidin in applications such as imaging, drug targeting and immunoassay. | |
Creative Diagnostics | Gold | DiagNano Protein A conjugated gold nanorods are suitable for use in immunoblotting, dark-field microscopy, two-photon photoluminescence imaging, photoacoustic imaging, and immunoassay applications. | |
Creative Diagnostics | Gold | DiagNano Protein A conjugated gold nanorods are suitable for use in immunoblotting, dark-field microscopy, two-photon photoluminescence imaging, photoacoustic imaging, and immunoassay applications. | |
Creative Diagnostics | Gold | DiagNano Protein A conjugated gold nanorods are suitable for use in immunoblotting, dark-field microscopy, two-photon photoluminescence imaging, photoacoustic imaging, and immunoassay applications. | |
Creative Diagnostics | Gold | DiagNano Protein A conjugated gold nanorods are suitable for use in immunoblotting, dark-field microscopy, two-photon photoluminescence imaging, photoacoustic imaging, and immunoassay applications. | |
Creative Diagnostics | Gold | DiagNano Protein A conjugated gold nanorods are suitable for use in immunoblotting, dark-field microscopy, two-photon photoluminescence imaging, photoacoustic imaging, and immunoassay applications. | |
Creative Diagnostics | Gold | DiagNano Protein A conjugated gold nanorods are suitable for use in immunoblotting, dark-field microscopy, two-photon photoluminescence imaging, photoacoustic imaging, and immunoassay applications. | |
Creative Diagnostics | Gold | DiagNano Protein A conjugated gold nanorods are suitable for use in immunoblotting, dark-field microscopy, two-photon photoluminescence imaging, photoacoustic imaging, and immunoassay applications. | |
Creative Diagnostics | Gold | DiagNano Protein A conjugated gold nanorods are suitable for use in immunoblotting, dark-field microscopy, two-photon photoluminescence imaging, photoacoustic imaging, and immunoassay applications. | |
Creative Diagnostics | Gold | DiagNano Protein A conjugated gold nanorods are suitable for use in immunoblotting, dark-field microscopy, two-photon photoluminescence imaging, photoacoustic imaging, and immunoassay applications. | |
Creative Diagnostics | Gold | DiagNano Protein A conjugated gold nanorods are suitable for use in immunoblotting, dark-field microscopy, two-photon photoluminescence imaging, photoacoustic imaging, and immunoassay applications. | |
Creative Diagnostics | Gold | DiagNano Protein A conjugated gold nanorods are suitable for use in immunoblotting, dark-field microscopy, two-photon photoluminescence imaging, photoacoustic imaging, and immunoassay applications. | |
Creative Diagnostics | Gold | DiagNano Protein A conjugated gold nanorods are suitable for use in immunoblotting, dark-field microscopy, two-photon photoluminescence imaging, photoacoustic imaging, and immunoassay applications. | |
Creative Diagnostics | Gold | DiagNano Protein A conjugated gold nanorods are suitable for use in immunoblotting, dark-field microscopy, two-photon photoluminescence imaging, photoacoustic imaging, and immunoassay applications. | |
Creative Diagnostics | Gold | DiagNano Protein A conjugated gold nanorods are suitable for use in immunoblotting, dark-field microscopy, two-photon photoluminescence imaging, photoacoustic imaging, and immunoassay applications. | |
Creative Diagnostics | Gold | DiagNano Protein A conjugated gold nanorods are suitable for use in immunoblotting, dark-field microscopy, two-photon photoluminescence imaging, photoacoustic imaging, and immunoassay applications. | |
Creative Diagnostics | Gold | DiagNano Protein A conjugated gold nanorods are suitable for use in immunoblotting, dark-field microscopy, two-photon photoluminescence imaging, photoacoustic imaging, and immunoassay applications. | |
Creative Diagnostics | Gold | DiagNano Protein A conjugated gold nanorods are suitable for use in immunoblotting, dark-field microscopy, two-photon photoluminescence imaging, photoacoustic imaging, and immunoassay applications. | |
Creative Diagnostics | Gold | DiagNano Protein A conjugated gold nanorods are suitable for use in immunoblotting, dark-field microscopy, two-photon photoluminescence imaging, photoacoustic imaging, and immunoassay applications. | |
Creative Diagnostics | Gold | DiagNano Protein A conjugated gold nanorods are suitable for use in immunoblotting, dark-field microscopy, two-photon photoluminescence imaging, photoacoustic imaging, and immunoassay applications. | |
Creative Diagnostics | Gold | DiagNano Protein A conjugated gold nanorods are suitable for use in immunoblotting, dark-field microscopy, two-photon photoluminescence imaging, photoacoustic imaging, and immunoassay applications. | |
Creative Diagnostics | Gold | DiagNano Protein A conjugated gold nanorods are suitable for use in immunoblotting, dark-field microscopy, two-photon photoluminescence imaging, photoacoustic imaging, and immunoassay applications. | |
Creative Diagnostics | Gold | DiagNano Protein A conjugated gold nanorods are suitable for use in immunoblotting, dark-field microscopy, two-photon photoluminescence imaging, photoacoustic imaging, and immunoassay applications. | |
Creative Diagnostics | Gold | DiagNano Protein A conjugated gold nanorods are suitable for use in immunoblotting, dark-field microscopy, two-photon photoluminescence imaging, photoacoustic imaging, and immunoassay applications. | |
Creative Diagnostics | Gold | Gold Nanorods conjugates are suitable for dark-field microscopy, two-photon photoluminescence imaging, photoacoustic imaging, kinetic immunoassay, sensors, drug delivery and photothermal therapy. | |
Creative Diagnostics | Gold | Gold Nanorods conjugates are suitable for dark-field microscopy, two-photon photoluminescence imaging, photoacoustic imaging, kinetic immunoassay, sensors, drug delivery and photothermal therapy. | |
Creative Diagnostics | Gold | Gold Nanorods conjugates are suitable for dark-field microscopy, two-photon photoluminescence imaging, photoacoustic imaging, kinetic immunoassay, sensors, drug delivery and photothermal therapy. | |
Creative Diagnostics | Gold | Gold Nanorods conjugates are suitable for dark-field microscopy, two-photon photoluminescence imaging, photoacoustic imaging, kinetic immunoassay, sensors, drug delivery and photothermal therapy. | |
Creative Diagnostics | Gold | Gold Nanorods conjugates are suitable for dark-field microscopy, two-photon photoluminescence imaging, photoacoustic imaging, kinetic immunoassay, sensors, drug delivery and photothermal therapy. | |
Creative Diagnostics | Gold | Gold Nanorods conjugates are suitable for dark-field microscopy, two-photon photoluminescence imaging, photoacoustic imaging, kinetic immunoassay, sensors, drug delivery and photothermal therapy. | |
Creative Diagnostics | Gold | Gold Nanorods conjugates are suitable for dark-field microscopy, two-photon photoluminescence imaging, photoacoustic imaging, kinetic immunoassay, sensors, drug delivery and photothermal therapy. | |
Creative Diagnostics | Gold | Gold Nanorods conjugates are suitable for dark-field microscopy, two-photon photoluminescence imaging, photoacoustic imaging, kinetic immunoassay, sensors, drug delivery and photothermal therapy. | |
Creative Diagnostics | Gold | Gold Nanorods conjugates are suitable for dark-field microscopy, two-photon photoluminescence imaging, photoacoustic imaging, kinetic immunoassay, sensors, drug delivery and photothermal therapy. | |
Creative Diagnostics | Gold | Gold Nanorods conjugates are suitable for dark-field microscopy, two-photon photoluminescence imaging, photoacoustic imaging, kinetic immunoassay, sensors, drug delivery and photothermal therapy. | |
Creative Diagnostics | Gold | Gold Nanorods conjugates are suitable for dark-field microscopy, two-photon photoluminescence imaging, photoacoustic imaging, kinetic immunoassay, sensors, drug delivery and photothermal therapy. | |
Creative Diagnostics | Gold | Gold Nanorods conjugates are suitable for dark-field microscopy, two-photon photoluminescence imaging, photoacoustic imaging, kinetic immunoassay, sensors, drug delivery and photothermal therapy. | |
Creative Diagnostics | Gold | Gold Nanorods conjugates are suitable for dark-field microscopy, two-photon photoluminescence imaging, photoacoustic imaging, kinetic immunoassay, sensors, drug delivery and photothermal therapy. | |
Creative Diagnostics | Gold | Gold Nanorods conjugates are suitable for dark-field microscopy, two-photon photoluminescence imaging, photoacoustic imaging, kinetic immunoassay, sensors, drug delivery and photothermal therapy. | |
Creative Diagnostics | Gold | Gold Nanorods conjugates are suitable for dark-field microscopy, two-photon photoluminescence imaging, photoacoustic imaging, kinetic immunoassay, sensors, drug delivery and photothermal therapy. | |
Creative Diagnostics | Gold | Gold Nanorods conjugates are suitable for dark-field microscopy, two-photon photoluminescence imaging, photoacoustic imaging, kinetic immunoassay, sensors, drug delivery and photothermal therapy. | |
Creative Diagnostics | Gold | Gold Nanorods conjugates are suitable for dark-field microscopy, two-photon photoluminescence imaging, photoacoustic imaging, kinetic immunoassay, sensors, drug delivery and photothermal therapy. | |
Creative Diagnostics | Gold | Gold Nanorods conjugates are suitable for dark-field microscopy, two-photon photoluminescence imaging, photoacoustic imaging, kinetic immunoassay, sensors, drug delivery and photothermal therapy. | |
Creative Diagnostics | Gold | Gold Nanorods conjugates are suitable for dark-field microscopy, two-photon photoluminescence imaging, photoacoustic imaging, kinetic immunoassay, sensors, drug delivery and photothermal therapy. | |
Creative Diagnostics | Gold | Gold Nanorods conjugates are suitable for dark-field microscopy, two-photon photoluminescence imaging, photoacoustic imaging, kinetic immunoassay, sensors, drug delivery and photothermal therapy. | |
Creative Diagnostics | Gold | Gold Nanorods conjugates are suitable for dark-field microscopy, two-photon photoluminescence imaging, photoacoustic imaging, kinetic immunoassay, sensors, drug delivery and photothermal therapy. | |
Creative Diagnostics | Gold | Gold Nanorods conjugates are suitable for dark-field microscopy, two-photon photoluminescence imaging, photoacoustic imaging, kinetic immunoassay, sensors, drug delivery and photothermal therapy. | |
Creative Diagnostics | Gold | Gold Nanorods conjugates are suitable for dark-field microscopy, two-photon photoluminescence imaging, photoacoustic imaging, kinetic immunoassay, sensors, drug delivery and photothermal therapy. | |
Creative Diagnostics | Gold | Gold Nanorods conjugates are suitable for dark-field microscopy, two-photon photoluminescence imaging, photoacoustic imaging, kinetic immunoassay, sensors, drug delivery and photothermal therapy. | |
Creative Diagnostics | Gold | Gold Nanorods conjugates are suitable for dark-field microscopy, two-photon photoluminescence imaging, photoacoustic imaging, kinetic immunoassay, sensors, drug delivery and photothermal therapy. | |
Creative Diagnostics | Gold | Gold Nanorods conjugates are suitable for dark-field microscopy, two-photon photoluminescence imaging, photoacoustic imaging, kinetic immunoassay, sensors, drug delivery and photothermal therapy. | |
Creative Diagnostics | Gold | Gold Nanorods conjugates are suitable for dark-field microscopy, two-photon photoluminescence imaging, photoacoustic imaging, kinetic immunoassay, sensors, drug delivery and photothermal therapy. | |
Creative Diagnostics | Gold | Gold Nanorods conjugates are suitable for dark-field microscopy, two-photon photoluminescence imaging, photoacoustic imaging, kinetic immunoassay, sensors, drug delivery and photothermal therapy. | |
Creative Diagnostics | Gold | Gold Nanorods conjugates are suitable for dark-field microscopy, two-photon photoluminescence imaging, photoacoustic imaging, kinetic immunoassay, sensors, drug delivery and photothermal therapy. | |
Creative Diagnostics | Gold | Gold Nanorods conjugates are suitable for dark-field microscopy, two-photon photoluminescence imaging, photoacoustic imaging, kinetic immunoassay, sensors, drug delivery and photothermal therapy. | |
Creative Diagnostics | Gold | Gold Nanorods conjugates are suitable for dark-field microscopy, two-photon photoluminescence imaging, photoacoustic imaging, kinetic immunoassay, sensors, drug delivery and photothermal therapy. | |
Creative Diagnostics | Gold | Gold Nanorods conjugates are suitable for dark-field microscopy, two-photon photoluminescence imaging, photoacoustic imaging, kinetic immunoassay, sensors, drug delivery and photothermal therapy. | |
Creative Diagnostics | Gold | Gold Nanorods conjugates are suitable for dark-field microscopy, two-photon photoluminescence imaging, photoacoustic imaging, kinetic immunoassay, sensors, drug delivery and photothermal therapy. | |
Creative Diagnostics | Gold | Gold Nanorods conjugates are suitable for dark-field microscopy, two-photon photoluminescence imaging, photoacoustic imaging, kinetic immunoassay, sensors, drug delivery and photothermal therapy. | |
Creative Diagnostics | Gold | Gold Nanorods conjugates are suitable for dark-field microscopy, two-photon photoluminescence imaging, photoacoustic imaging, kinetic immunoassay, sensors, drug delivery and photothermal therapy. | |
Creative Diagnostics | Gold | Gold Nanorods conjugates are suitable for dark-field microscopy, two-photon photoluminescence imaging, photoacoustic imaging, kinetic immunoassay, sensors, drug delivery and photothermal therapy. | |
Creative Diagnostics | Gold | Gold Nanorods conjugates are suitable for dark-field microscopy, two-photon photoluminescence imaging, photoacoustic imaging, kinetic immunoassay, sensors, drug delivery and photothermal therapy. | |
Creative Diagnostics | Gold | Gold Nanorods conjugates are suitable for dark-field microscopy, two-photon photoluminescence imaging, photoacoustic imaging, kinetic immunoassay, sensors, drug delivery and photothermal therapy. | |
Creative Diagnostics | Gold | Gold Nanorods conjugates are suitable for dark-field microscopy, two-photon photoluminescence imaging, photoacoustic imaging, kinetic immunoassay, sensors, drug delivery and photothermal therapy. | |
Creative Diagnostics | Gold | Gold Nanorods conjugates are suitable for dark-field microscopy, two-photon photoluminescence imaging, photoacoustic imaging, kinetic immunoassay, sensors, drug delivery and photothermal therapy. | |
Creative Diagnostics | Gold | Gold Nanorods conjugates are suitable for dark-field microscopy, two-photon photoluminescence imaging, photoacoustic imaging, kinetic immunoassay, sensors, drug delivery and photothermal therapy. | |
Creative Diagnostics | Gold | Gold Nanorods conjugates are suitable for dark-field microscopy, two-photon photoluminescence imaging, photoacoustic imaging, kinetic immunoassay, sensors, drug delivery and photothermal therapy. | |
Creative Diagnostics | Gold | Gold Nanorods conjugates are suitable for dark-field microscopy, two-photon photoluminescence imaging, photoacoustic imaging, kinetic immunoassay, sensors, drug delivery and photothermal therapy. | |
Creative Diagnostics | Gold | Gold Nanorods conjugates are suitable for dark-field microscopy, two-photon photoluminescence imaging, photoacoustic imaging, kinetic immunoassay, sensors, drug delivery and photothermal therapy. | |
Creative Diagnostics | Gold | Gold Nanorods conjugates are suitable for dark-field microscopy, two-photon photoluminescence imaging, photoacoustic imaging, kinetic immunoassay, sensors, drug delivery and photothermal therapy. | |
Creative Diagnostics | Gold | Gold Nanorods conjugates are suitable for dark-field microscopy, two-photon photoluminescence imaging, photoacoustic imaging, kinetic immunoassay, sensors, drug delivery and photothermal therapy. | |
Creative Diagnostics | Gold | Gold Nanorods conjugates are suitable for dark-field microscopy, two-photon photoluminescence imaging, photoacoustic imaging, kinetic immunoassay, sensors, drug delivery and photothermal therapy. | |
Creative Diagnostics | Gold | Gold Nanorods conjugates are suitable for dark-field microscopy, two-photon photoluminescence imaging, photoacoustic imaging, kinetic immunoassay, sensors, drug delivery and photothermal therapy. | |
Creative Diagnostics | Gold | Gold Nanorods conjugates are suitable for dark-field microscopy, two-photon photoluminescence imaging, photoacoustic imaging, kinetic immunoassay, sensors, drug delivery and photothermal therapy. | |
Creative Diagnostics | Gold | Gold Nanorods conjugates are suitable for dark-field microscopy, two-photon photoluminescence imaging, photoacoustic imaging, kinetic immunoassay, sensors, drug delivery and photothermal therapy. | |
Creative Diagnostics | Gold | Gold Nanorods conjugates are suitable for dark-field microscopy, two-photon photoluminescence imaging, photoacoustic imaging, kinetic immunoassay, sensors, drug delivery and photothermal therapy. | |
Creative Diagnostics | Gold | Gold Nanorods conjugates are suitable for dark-field microscopy, two-photon photoluminescence imaging, photoacoustic imaging, kinetic immunoassay, sensors, drug delivery and photothermal therapy. | |
Creative Diagnostics | Gold | Gold Nanorods conjugates are suitable for dark-field microscopy, two-photon photoluminescence imaging, photoacoustic imaging, kinetic immunoassay, sensors, drug delivery and photothermal therapy. | |
Creative Diagnostics | Gold | Gold Nanorods conjugates are suitable for dark-field microscopy, two-photon photoluminescence imaging, photoacoustic imaging, kinetic immunoassay, sensors, drug delivery and photothermal therapy. | |
Creative Diagnostics | Gold | Gold Nanorods conjugates are suitable for dark-field microscopy, two-photon photoluminescence imaging, photoacoustic imaging, kinetic immunoassay, sensors, drug delivery and photothermal therapy. | |
Creative Diagnostics | Gold | Gold Nanorods conjugates are suitable for dark-field microscopy, two-photon photoluminescence imaging, photoacoustic imaging, kinetic immunoassay, sensors, drug delivery and photothermal therapy. | |
Creative Diagnostics | Gold | Gold Nanorods conjugates are suitable for dark-field microscopy, two-photon photoluminescence imaging, photoacoustic imaging, kinetic immunoassay, sensors, drug delivery and photothermal therapy. | |
Creative Diagnostics | Gold | Gold Nanorods conjugates are suitable for dark-field microscopy, two-photon photoluminescence imaging, photoacoustic imaging, kinetic immunoassay, sensors, drug delivery and photothermal therapy. | |
Creative Diagnostics | Gold | Gold Nanorods conjugates are suitable for dark-field microscopy, two-photon photoluminescence imaging, photoacoustic imaging, kinetic immunoassay, sensors, drug delivery and photothermal therapy. | |
Creative Diagnostics | Gold | Gold Nanorods conjugates are suitable for dark-field microscopy, two-photon photoluminescence imaging, photoacoustic imaging, kinetic immunoassay, sensors, drug delivery and photothermal therapy. | |
Creative Diagnostics | Gold | Gold Nanorods conjugates are suitable for dark-field microscopy, two-photon photoluminescence imaging, photoacoustic imaging, kinetic immunoassay, sensors, drug delivery and photothermal therapy. | |
Creative Diagnostics | Gold | Gold Nanorods conjugates are suitable for dark-field microscopy, two-photon photoluminescence imaging, photoacoustic imaging, kinetic immunoassay, sensors, drug delivery and photothermal therapy. | |
Creative Diagnostics | Gold | Gold Nanorods conjugates are suitable for dark-field microscopy, two-photon photoluminescence imaging, photoacoustic imaging, kinetic immunoassay, sensors, drug delivery and photothermal therapy. | |
Creative Diagnostics | Gold | Gold Nanorods conjugates are suitable for dark-field microscopy, two-photon photoluminescence imaging, photoacoustic imaging, kinetic immunoassay, sensors, drug delivery and photothermal therapy. | |
Creative Diagnostics | Gold | Gold Nanorods conjugates are suitable for dark-field microscopy, two-photon photoluminescence imaging, photoacoustic imaging, kinetic immunoassay, sensors, drug delivery and photothermal therapy. | |
Creative Diagnostics | Gold | Gold Nanorods conjugates are suitable for dark-field microscopy, two-photon photoluminescence imaging, photoacoustic imaging, kinetic immunoassay, sensors, drug delivery and photothermal therapy. | |
Creative Diagnostics | Gold | Gold Nanorods conjugates are suitable for dark-field microscopy, two-photon photoluminescence imaging, photoacoustic imaging, kinetic immunoassay, sensors, drug delivery and photothermal therapy. | |
Creative Diagnostics | Gold | Gold Nanorods conjugates are suitable for dark-field microscopy, two-photon photoluminescence imaging, photoacoustic imaging, kinetic immunoassay, sensors, drug delivery and photothermal therapy. | |
Creative Diagnostics | Gold | Gold Nanorods conjugates are suitable for dark-field microscopy, two-photon photoluminescence imaging, photoacoustic imaging, kinetic immunoassay, sensors, drug delivery and photothermal therapy. | |
Creative Diagnostics | Gold | Gold Nanorods conjugates are suitable for dark-field microscopy, two-photon photoluminescence imaging, photoacoustic imaging, kinetic immunoassay, sensors, drug delivery and photothermal therapy. | |
Creative Diagnostics | Gold | Gold Nanorods conjugates are suitable for dark-field microscopy, two-photon photoluminescence imaging, photoacoustic imaging, kinetic immunoassay, sensors, drug delivery and photothermal therapy. | |
Creative Diagnostics | Gold | Gold Nanorods conjugates are suitable for dark-field microscopy, two-photon photoluminescence imaging, photoacoustic imaging, kinetic immunoassay, sensors, drug delivery and photothermal therapy. | |
Creative Diagnostics | Gold | Gold Nanorods conjugates are suitable for dark-field microscopy, two-photon photoluminescence imaging, photoacoustic imaging, kinetic immunoassay, sensors, drug delivery and photothermal therapy. | |
Creative Diagnostics | Gold | Gold Nanorods conjugates are suitable for dark-field microscopy, two-photon photoluminescence imaging, photoacoustic imaging, kinetic immunoassay, sensors, drug delivery and photothermal therapy. | |
Creative Diagnostics | Gold | Gold Nanorods conjugates are suitable for dark-field microscopy, two-photon photoluminescence imaging, photoacoustic imaging, kinetic immunoassay, sensors, drug delivery and photothermal therapy. | |
Creative Diagnostics | Gold | Gold Nanorods conjugates are suitable for dark-field microscopy, two-photon photoluminescence imaging, photoacoustic imaging, kinetic immunoassay, sensors, drug delivery and photothermal therapy. | |
Creative Diagnostics | Gold | Gold Nanorods conjugates are suitable for dark-field microscopy, two-photon photoluminescence imaging, photoacoustic imaging, kinetic immunoassay, sensors, drug delivery and photothermal therapy. | |
Creative Diagnostics | Gold | Gold Nanorods conjugates are suitable for dark-field microscopy, two-photon photoluminescence imaging, photoacoustic imaging, kinetic immunoassay, sensors, drug delivery and photothermal therapy. | |
Creative Diagnostics | Gold | Gold Nanorods conjugates are suitable for dark-field microscopy, two-photon photoluminescence imaging, photoacoustic imaging, kinetic immunoassay, sensors, drug delivery and photothermal therapy. | |
Creative Diagnostics | Gold | Gold Nanorods conjugates are suitable for dark-field microscopy, two-photon photoluminescence imaging, photoacoustic imaging, kinetic immunoassay, sensors, drug delivery and photothermal therapy. | |
Creative Diagnostics | Gold | Gold Nanorods conjugates are suitable for dark-field microscopy, two-photon photoluminescence imaging, photoacoustic imaging, kinetic immunoassay, sensors, drug delivery and photothermal therapy. | |
Creative Diagnostics | Gold | Gold Nanorods conjugates are suitable for dark-field microscopy, two-photon photoluminescence imaging, photoacoustic imaging, kinetic immunoassay, sensors, drug delivery and photothermal therapy. | |
Creative Diagnostics | Gold | Gold Nanorods conjugates are suitable for dark-field microscopy, two-photon photoluminescence imaging, photoacoustic imaging, kinetic immunoassay, sensors, drug delivery and photothermal therapy. | |
Creative Diagnostics | Gold | Gold Nanorods conjugates are suitable for dark-field microscopy, two-photon photoluminescence imaging, photoacoustic imaging, kinetic immunoassay, sensors, drug delivery and photothermal therapy. | |
Creative Diagnostics | Gold | Gold Nanorods conjugates are suitable for dark-field microscopy, two-photon photoluminescence imaging, photoacoustic imaging, kinetic immunoassay, sensors, drug delivery and photothermal therapy. | |
Creative Diagnostics | Gold | Gold Nanorods conjugates are suitable for dark-field microscopy, two-photon photoluminescence imaging, photoacoustic imaging, kinetic immunoassay, sensors, drug delivery and photothermal therapy. | |
Creative Diagnostics | Gold | Gold Nanorods conjugates are suitable for dark-field microscopy, two-photon photoluminescence imaging, photoacoustic imaging, kinetic immunoassay, sensors, drug delivery and photothermal therapy. | |
Creative Diagnostics | Gold | Gold Nanorods conjugates are suitable for dark-field microscopy, two-photon photoluminescence imaging, photoacoustic imaging, kinetic immunoassay, sensors, drug delivery and photothermal therapy. | |
Creative Diagnostics | Gold | Gold Nanorods conjugates are suitable for dark-field microscopy, two-photon photoluminescence imaging, photoacoustic imaging, kinetic immunoassay, sensors, drug delivery and photothermal therapy. | |
Creative Diagnostics | Gold | Gold Nanorods conjugates are suitable for dark-field microscopy, two-photon photoluminescence imaging, photoacoustic imaging, kinetic immunoassay, sensors, drug delivery and photothermal therapy. | |
Creative Diagnostics | Gold | Gold Nanorods conjugates are suitable for dark-field microscopy, two-photon photoluminescence imaging, photoacoustic imaging, kinetic immunoassay, sensors, drug delivery and photothermal therapy. | |
Creative Diagnostics | Gold | Gold Nanorods conjugates are suitable for dark-field microscopy, two-photon photoluminescence imaging, photoacoustic imaging, kinetic immunoassay, sensors, drug delivery and photothermal therapy. | |
Creative Diagnostics | Gold | Gold Nanorods conjugates are suitable for dark-field microscopy, two-photon photoluminescence imaging, photoacoustic imaging, kinetic immunoassay, sensors, drug delivery and photothermal therapy. | |
Creative Diagnostics | Gold | Gold Nanorods conjugates are suitable for dark-field microscopy, two-photon photoluminescence imaging, photoacoustic imaging, kinetic immunoassay, sensors, drug delivery and photothermal therapy. | |
Creative Diagnostics | Gold | Gold Nanorods conjugates are suitable for dark-field microscopy, two-photon photoluminescence imaging, photoacoustic imaging, kinetic immunoassay, sensors, drug delivery and photothermal therapy. | |
Creative Diagnostics | Gold | Gold Nanorods conjugates are suitable for dark-field microscopy, two-photon photoluminescence imaging, photoacoustic imaging, kinetic immunoassay, sensors, drug delivery and photothermal therapy. | |
Creative Diagnostics | Gold | Gold Nanorods conjugates are suitable for dark-field microscopy, two-photon photoluminescence imaging, photoacoustic imaging, kinetic immunoassay, sensors, drug delivery and photothermal therapy. | |
Creative Diagnostics | Gold | Gold Nanorods conjugates are suitable for dark-field microscopy, two-photon photoluminescence imaging, photoacoustic imaging, kinetic immunoassay, sensors, drug delivery and photothermal therapy. | |
Creative Diagnostics | Gold | Gold Nanorods conjugates are suitable for dark-field microscopy, two-photon photoluminescence imaging, photoacoustic imaging, kinetic immunoassay, sensors, drug delivery and photothermal therapy. | |
Creative Diagnostics | Gold | Gold Nanorods conjugates are suitable for dark-field microscopy, two-photon photoluminescence imaging, photoacoustic imaging, kinetic immunoassay, sensors, drug delivery and photothermal therapy. | |
Creative Diagnostics | Gold | Gold Nanorods conjugates are suitable for dark-field microscopy, two-photon photoluminescence imaging, photoacoustic imaging, kinetic immunoassay, sensors, drug delivery and photothermal therapy. | |
Creative Diagnostics | Gold | Gold Nanorods conjugates are suitable for dark-field microscopy, two-photon photoluminescence imaging, photoacoustic imaging, kinetic immunoassay, sensors, drug delivery and photothermal therapy. | |
Creative Diagnostics | Gold | Gold Nanorods conjugates are suitable for dark-field microscopy, two-photon photoluminescence imaging, photoacoustic imaging, kinetic immunoassay, sensors, drug delivery and photothermal therapy. | |
Creative Diagnostics | Gold | Gold Nanorods conjugates are suitable for dark-field microscopy, two-photon photoluminescence imaging, photoacoustic imaging, kinetic immunoassay, sensors, drug delivery and photothermal therapy. | |
Creative Diagnostics | Gold | Gold Nanorods conjugates are suitable for dark-field microscopy, two-photon photoluminescence imaging, photoacoustic imaging, kinetic immunoassay, sensors, drug delivery and photothermal therapy. | |
Creative Diagnostics | Gold | Gold Nanorods conjugates are suitable for dark-field microscopy, two-photon photoluminescence imaging, photoacoustic imaging, kinetic immunoassay, sensors, drug delivery and photothermal therapy. | |
Creative Diagnostics | Gold | Gold Nanorods conjugates are suitable for dark-field microscopy, two-photon photoluminescence imaging, photoacoustic imaging, kinetic immunoassay, sensors, drug delivery and photothermal therapy. | |
Creative Diagnostics | Gold | Gold Nanorods conjugates are suitable for dark-field microscopy, two-photon photoluminescence imaging, photoacoustic imaging, kinetic immunoassay, sensors, drug delivery and photothermal therapy. | |
Creative Diagnostics | Gold | Gold Nanorods conjugates are suitable for dark-field microscopy, two-photon photoluminescence imaging, photoacoustic imaging, kinetic immunoassay, sensors, drug delivery and photothermal therapy. | |
Creative Diagnostics | Gold | Gold Nanorods conjugates are suitable for dark-field microscopy, two-photon photoluminescence imaging, photoacoustic imaging, kinetic immunoassay, sensors, drug delivery and photothermal therapy. | |
Creative Diagnostics | Gold | Gold Nanorods conjugates are suitable for dark-field microscopy, two-photon photoluminescence imaging, photoacoustic imaging, kinetic immunoassay, sensors, drug delivery and photothermal therapy. | |
Creative Diagnostics | Gold | Gold Nanorods conjugates are suitable for dark-field microscopy, two-photon photoluminescence imaging, photoacoustic imaging, kinetic immunoassay, sensors, drug delivery and photothermal therapy. | |
Creative Diagnostics | Gold | Gold Nanorods conjugates are suitable for dark-field microscopy, two-photon photoluminescence imaging, photoacoustic imaging, kinetic immunoassay, sensors, drug delivery and photothermal therapy. | |
Creative Diagnostics | Gold | Gold Nanorods conjugates are suitable for dark-field microscopy, two-photon photoluminescence imaging, photoacoustic imaging, kinetic immunoassay, sensors, drug delivery and photothermal therapy. | |
Creative Diagnostics | Gold | Gold Nanorods conjugates are suitable for dark-field microscopy, two-photon photoluminescence imaging, photoacoustic imaging, kinetic immunoassay, sensors, drug delivery and photothermal therapy. | |
Creative Diagnostics | Gold | Gold Nanorods conjugates are suitable for dark-field microscopy, two-photon photoluminescence imaging, photoacoustic imaging, kinetic immunoassay, sensors, drug delivery and photothermal therapy. | |
Creative Diagnostics | Gold | Gold Nanorods conjugates are suitable for dark-field microscopy, two-photon photoluminescence imaging, photoacoustic imaging, kinetic immunoassay, sensors, drug delivery and photothermal therapy. | |
Creative Diagnostics | Gold | Gold Nanorods conjugates are suitable for dark-field microscopy, two-photon photoluminescence imaging, photoacoustic imaging, kinetic immunoassay, sensors, drug delivery and photothermal therapy. | |
Creative Diagnostics | Gold | Gold Nanorods conjugates are suitable for dark-field microscopy, two-photon photoluminescence imaging, photoacoustic imaging, kinetic immunoassay, sensors, drug delivery and photothermal therapy. | |
Creative Diagnostics | Gold | Gold Nanorods conjugates are suitable for dark-field microscopy, two-photon photoluminescence imaging, photoacoustic imaging, kinetic immunoassay, sensors, drug delivery and photothermal therapy. | |
Creative Diagnostics | Gold | Gold Nanorods conjugates are suitable for dark-field microscopy, two-photon photoluminescence imaging, photoacoustic imaging, kinetic immunoassay, sensors, drug delivery and photothermal therapy. | |
Creative Diagnostics | Gold | Gold Nanorods conjugates are suitable for dark-field microscopy, two-photon photoluminescence imaging, photoacoustic imaging, kinetic immunoassay, sensors, drug delivery and photothermal therapy. | |
Creative Diagnostics | Gold | Gold Nanorods conjugates are suitable for dark-field microscopy, two-photon photoluminescence imaging, photoacoustic imaging, kinetic immunoassay, sensors, drug delivery and photothermal therapy. | |
Creative Diagnostics | Gold | Gold Nanorods conjugates are suitable for dark-field microscopy, two-photon photoluminescence imaging, photoacoustic imaging, kinetic immunoassay, sensors, drug delivery and photothermal therapy. | |
Creative Diagnostics | Gold | Gold Nanorods conjugates are suitable for dark-field microscopy, two-photon photoluminescence imaging, photoacoustic imaging, kinetic immunoassay, sensors, drug delivery and photothermal therapy. | |
Creative Diagnostics | Gold | Gold Nanorods conjugates are suitable for dark-field microscopy, two-photon photoluminescence imaging, photoacoustic imaging, kinetic immunoassay, sensors, drug delivery and photothermal therapy. | |
Creative Diagnostics | Gold | Gold Nanorods conjugates are suitable for dark-field microscopy, two-photon photoluminescence imaging, photoacoustic imaging, kinetic immunoassay, sensors, drug delivery and photothermal therapy. | |
Creative Diagnostics | Gold | Gold Nanorods conjugates are suitable for dark-field microscopy, two-photon photoluminescence imaging, photoacoustic imaging, kinetic immunoassay, sensors, drug delivery and photothermal therapy. | |
Creative Diagnostics | Gold | Gold Nanorods conjugates are suitable for dark-field microscopy, two-photon photoluminescence imaging, photoacoustic imaging, kinetic immunoassay, sensors, drug delivery and photothermal therapy. | |
Creative Diagnostics | Gold | Gold Nanorods conjugates are suitable for dark-field microscopy, two-photon photoluminescence imaging, photoacoustic imaging, kinetic immunoassay, sensors, drug delivery and photothermal therapy. | |
Creative Diagnostics | Gold | Gold Nanorods conjugates are suitable for dark-field microscopy, two-photon photoluminescence imaging, photoacoustic imaging, kinetic immunoassay, sensors, drug delivery and photothermal therapy. | |
Creative Diagnostics | Gold | Gold Nanorods conjugates are suitable for dark-field microscopy, two-photon photoluminescence imaging, photoacoustic imaging, kinetic immunoassay, sensors, drug delivery and photothermal therapy. | |
Creative Diagnostics | Gold | Gold Nanorods conjugates are suitable for dark-field microscopy, two-photon photoluminescence imaging, photoacoustic imaging, kinetic immunoassay, sensors, drug delivery and photothermal therapy. | |
Creative Diagnostics | Gold | Gold Nanorods conjugates are suitable for dark-field microscopy, two-photon photoluminescence imaging, photoacoustic imaging, kinetic immunoassay, sensors, drug delivery and photothermal therapy. | |
Creative Diagnostics | Gold | Gold Nanorods conjugates are suitable for dark-field microscopy, two-photon photoluminescence imaging, photoacoustic imaging, kinetic immunoassay, sensors, drug delivery and photothermal therapy. | |
Creative Diagnostics | Gold | Gold Nanorods conjugates are suitable for dark-field microscopy, two-photon photoluminescence imaging, photoacoustic imaging, kinetic immunoassay, sensors, drug delivery and photothermal therapy. | |
Creative Diagnostics | Gold | Gold Nanorods conjugates are suitable for dark-field microscopy, two-photon photoluminescence imaging, photoacoustic imaging, kinetic immunoassay, sensors, drug delivery and photothermal therapy. | |
Creative Diagnostics | Gold | Gold Nanorods conjugates are suitable for dark-field microscopy, two-photon photoluminescence imaging, photoacoustic imaging, kinetic immunoassay, sensors, drug delivery and photothermal therapy. | |
Creative Diagnostics | Gold | Gold Nanorods conjugates are suitable for dark-field microscopy, two-photon photoluminescence imaging, photoacoustic imaging, kinetic immunoassay, sensors, drug delivery and photothermal therapy. | |
Creative Diagnostics | Gold | Gold Nanorods conjugates are suitable for dark-field microscopy, two-photon photoluminescence imaging, photoacoustic imaging, kinetic immunoassay, sensors, drug delivery and photothermal therapy. | |
Creative Diagnostics | Gold | Gold Nanorods conjugates are suitable for dark-field microscopy, two-photon photoluminescence imaging, photoacoustic imaging, kinetic immunoassay, sensors, drug delivery and photothermal therapy. | |
Creative Diagnostics | Gold | Gold Nanorods conjugates are suitable for dark-field microscopy, two-photon photoluminescence imaging, photoacoustic imaging, kinetic immunoassay, sensors, drug delivery and photothermal therapy. | |
Creative Diagnostics | Gold | Gold Nanorods conjugates are suitable for dark-field microscopy, two-photon photoluminescence imaging, photoacoustic imaging, kinetic immunoassay, sensors, drug delivery and photothermal therapy. | |
Creative Diagnostics | Gold | Gold Nanorods conjugates are suitable for dark-field microscopy, two-photon photoluminescence imaging, photoacoustic imaging, kinetic immunoassay, sensors, drug delivery and photothermal therapy. | |
Creative Diagnostics | Gold | Gold Nanorods conjugates are suitable for dark-field microscopy, two-photon photoluminescence imaging, photoacoustic imaging, kinetic immunoassay, sensors, drug delivery and photothermal therapy. | |
Creative Diagnostics | Gold | Gold Nanorods conjugates are suitable for dark-field microscopy, two-photon photoluminescence imaging, photoacoustic imaging, kinetic immunoassay, sensors, drug delivery and photothermal therapy. | |
Creative Diagnostics | Gold | Gold Nanorods conjugates are suitable for dark-field microscopy, two-photon photoluminescence imaging, photoacoustic imaging, kinetic immunoassay, sensors, drug delivery and photothermal therapy. | |
Creative Diagnostics | Gold | Gold Nanorods conjugates are suitable for dark-field microscopy, two-photon photoluminescence imaging, photoacoustic imaging, kinetic immunoassay, sensors, drug delivery and photothermal therapy. | |
Creative Diagnostics | Gold | Gold Nanorods conjugates are suitable for dark-field microscopy, two-photon photoluminescence imaging, photoacoustic imaging, kinetic immunoassay, sensors, drug delivery and photothermal therapy. | |
Creative Diagnostics | Gold | Gold Nanorods conjugates are suitable for dark-field microscopy, two-photon photoluminescence imaging, photoacoustic imaging, kinetic immunoassay, sensors, drug delivery and photothermal therapy. | |
Creative Diagnostics | Gold | Gold Nanorods conjugates are suitable for dark-field microscopy, two-photon photoluminescence imaging, photoacoustic imaging, kinetic immunoassay, sensors, drug delivery and photothermal therapy. | |
Creative Diagnostics | Gold | Gold Nanorods conjugates are suitable for dark-field microscopy, two-photon photoluminescence imaging, photoacoustic imaging, kinetic immunoassay, sensors, drug delivery and photothermal therapy. | |
Creative Diagnostics | Gold | Gold Nanorods conjugates are suitable for dark-field microscopy, two-photon photoluminescence imaging, photoacoustic imaging, kinetic immunoassay, sensors, drug delivery and photothermal therapy. | |
Creative Diagnostics | Gold | Gold Nanorods conjugates are suitable for dark-field microscopy, two-photon photoluminescence imaging, photoacoustic imaging, kinetic immunoassay, sensors, drug delivery and photothermal therapy. | |
Creative Diagnostics | Gold | Gold Nanorods conjugates are suitable for dark-field microscopy, two-photon photoluminescence imaging, photoacoustic imaging, kinetic immunoassay, sensors, drug delivery and photothermal therapy. | |
Creative Diagnostics | Gold | Gold Nanorods conjugates are suitable for dark-field microscopy, two-photon photoluminescence imaging, photoacoustic imaging, kinetic immunoassay, sensors, drug delivery and photothermal therapy. | |
Creative Diagnostics | Gold | Gold Nanorods conjugates are suitable for dark-field microscopy, two-photon photoluminescence imaging, photoacoustic imaging, kinetic immunoassay, sensors, drug delivery and photothermal therapy. | |
Creative Diagnostics | Gold | Gold Nanorods conjugates are suitable for dark-field microscopy, two-photon photoluminescence imaging, photoacoustic imaging, kinetic immunoassay, sensors, drug delivery and photothermal therapy. | |
Creative Diagnostics | Gold | Gold Nanorods conjugates are suitable for dark-field microscopy, two-photon photoluminescence imaging, photoacoustic imaging, kinetic immunoassay, sensors, drug delivery and photothermal therapy. | |
Creative Diagnostics | Gold | Gold Nanorods conjugates are suitable for dark-field microscopy, two-photon photoluminescence imaging, photoacoustic imaging, kinetic immunoassay, sensors, drug delivery and photothermal therapy. | |
Creative Diagnostics | Gold | Gold Nanorods conjugates are suitable for dark-field microscopy, two-photon photoluminescence imaging, photoacoustic imaging, kinetic immunoassay, sensors, drug delivery and photothermal therapy. | |
Creative Diagnostics | Gold | Gold Nanorods conjugates are suitable for dark-field microscopy, two-photon photoluminescence imaging, photoacoustic imaging, kinetic immunoassay, sensors, drug delivery and photothermal therapy. | |
Creative Diagnostics | Gold | Gold Nanorods conjugates are suitable for dark-field microscopy, two-photon photoluminescence imaging, photoacoustic imaging, kinetic immunoassay, sensors, drug delivery and photothermal therapy. | |
Creative Diagnostics | Gold | Gold Nanorods conjugates are suitable for dark-field microscopy, two-photon photoluminescence imaging, photoacoustic imaging, kinetic immunoassay, sensors, drug delivery and photothermal therapy. | |
Creative Diagnostics | Gold | Gold Nanorods conjugates are suitable for dark-field microscopy, two-photon photoluminescence imaging, photoacoustic imaging, kinetic immunoassay, sensors, drug delivery and photothermal therapy. | |
Creative Diagnostics | Gold | Gold Nanorods conjugates are suitable for dark-field microscopy, two-photon photoluminescence imaging, photoacoustic imaging, kinetic immunoassay, sensors, drug delivery and photothermal therapy. | |
Creative Diagnostics | Gold | Gold Nanorods conjugates are suitable for dark-field microscopy, two-photon photoluminescence imaging, photoacoustic imaging, kinetic immunoassay, sensors, drug delivery and photothermal therapy. | |
Creative Diagnostics | Gold | Gold Nanorods conjugates are suitable for dark-field microscopy, two-photon photoluminescence imaging, photoacoustic imaging, kinetic immunoassay, sensors, drug delivery and photothermal therapy. | |
Creative Diagnostics | Gold | Gold Nanorods conjugates are suitable for dark-field microscopy, two-photon photoluminescence imaging, photoacoustic imaging, kinetic immunoassay, sensors, drug delivery and photothermal therapy. | |
Creative Diagnostics | Gold | Gold Nanorods conjugates are suitable for dark-field microscopy, two-photon photoluminescence imaging, photoacoustic imaging, kinetic immunoassay, sensors, drug delivery and photothermal therapy. | |
Creative Diagnostics | Gold | Gold Nanorods conjugates are suitable for dark-field microscopy, two-photon photoluminescence imaging, photoacoustic imaging, kinetic immunoassay, sensors, drug delivery and photothermal therapy. | |
Creative Diagnostics | Gold | Gold Nanorods conjugates are suitable for dark-field microscopy, two-photon photoluminescence imaging, photoacoustic imaging, kinetic immunoassay, sensors, drug delivery and photothermal therapy. | |
Creative Diagnostics | Gold | Gold Nanorods conjugates are suitable for dark-field microscopy, two-photon photoluminescence imaging, photoacoustic imaging, kinetic immunoassay, sensors, drug delivery and photothermal therapy. | |
Creative Diagnostics | Gold | Gold Nanorods conjugates are suitable for dark-field microscopy, two-photon photoluminescence imaging, photoacoustic imaging, kinetic immunoassay, sensors, drug delivery and photothermal therapy. | |
Creative Diagnostics | Gold | Gold Nanorods conjugates are suitable for dark-field microscopy, two-photon photoluminescence imaging, photoacoustic imaging, kinetic immunoassay, sensors, drug delivery and photothermal therapy. | |
Creative Diagnostics | Gold | Gold Nanorods conjugates are suitable for dark-field microscopy, two-photon photoluminescence imaging, photoacoustic imaging, kinetic immunoassay, sensors, drug delivery and photothermal therapy. | |
Creative Diagnostics | Gold | Gold Nanorods conjugates are suitable for dark-field microscopy, two-photon photoluminescence imaging, photoacoustic imaging, kinetic immunoassay, sensors, drug delivery and photothermal therapy. | |
Creative Diagnostics | Gold | Gold Nanorods conjugates are suitable for dark-field microscopy, two-photon photoluminescence imaging, photoacoustic imaging, kinetic immunoassay, sensors, drug delivery and photothermal therapy. | |
Creative Diagnostics | Gold | Gold Nanorods conjugates are suitable for dark-field microscopy, two-photon photoluminescence imaging, photoacoustic imaging, kinetic immunoassay, sensors, drug delivery and photothermal therapy. | |
Creative Diagnostics | Gold | Gold Nanorods conjugates are suitable for dark-field microscopy, two-photon photoluminescence imaging, photoacoustic imaging, kinetic immunoassay, sensors, drug delivery and photothermal therapy. | |
Creative Diagnostics | Gold | Gold Nanorods conjugates are suitable for dark-field microscopy, two-photon photoluminescence imaging, photoacoustic imaging, kinetic immunoassay, sensors, drug delivery and photothermal therapy. | |
Creative Diagnostics | Gold | Gold Nanorods conjugates are suitable for dark-field microscopy, two-photon photoluminescence imaging, photoacoustic imaging, kinetic immunoassay, sensors, drug delivery and photothermal therapy. | |
Creative Diagnostics | Gold | Gold Nanorods conjugates are suitable for dark-field microscopy, two-photon photoluminescence imaging, photoacoustic imaging, kinetic immunoassay, sensors, drug delivery and photothermal therapy. | |
Creative Diagnostics | Gold | Gold Nanorods conjugates are suitable for dark-field microscopy, two-photon photoluminescence imaging, photoacoustic imaging, kinetic immunoassay, sensors, drug delivery and photothermal therapy. | |
Creative Diagnostics | Gold | Gold Nanorods conjugates are suitable for dark-field microscopy, two-photon photoluminescence imaging, photoacoustic imaging, kinetic immunoassay, sensors, drug delivery and photothermal therapy. | |
Creative Diagnostics | Gold | Gold Nanorods conjugates are suitable for dark-field microscopy, two-photon photoluminescence imaging, photoacoustic imaging, kinetic immunoassay, sensors, drug delivery and photothermal therapy. | |
Creative Diagnostics | Gold | Gold Nanorods conjugates are suitable for dark-field microscopy, two-photon photoluminescence imaging, photoacoustic imaging, kinetic immunoassay, sensors, drug delivery and photothermal therapy. | |
Creative Diagnostics | Gold | Gold Nanorods conjugates are suitable for dark-field microscopy, two-photon photoluminescence imaging, photoacoustic imaging, kinetic immunoassay, sensors, drug delivery and photothermal therapy. | |
Creative Diagnostics | Gold | Gold Nanorods conjugates are suitable for dark-field microscopy, two-photon photoluminescence imaging, photoacoustic imaging, kinetic immunoassay, sensors, drug delivery and photothermal therapy. | |
Creative Diagnostics | Gold | Gold Nanorods conjugates are suitable for dark-field microscopy, two-photon photoluminescence imaging, photoacoustic imaging, kinetic immunoassay, sensors, drug delivery and photothermal therapy. | |
Creative Diagnostics | Gold | Gold Nanorods conjugates are suitable for dark-field microscopy, two-photon photoluminescence imaging, photoacoustic imaging, kinetic immunoassay, sensors, drug delivery and photothermal therapy. | |
Creative Diagnostics | Gold | Gold Nanorods conjugates are suitable for dark-field microscopy, two-photon photoluminescence imaging, photoacoustic imaging, kinetic immunoassay, sensors, drug delivery and photothermal therapy. | |
Creative Diagnostics | Gold | Gold Nanorods conjugates are suitable for dark-field microscopy, two-photon photoluminescence imaging, photoacoustic imaging, kinetic immunoassay, sensors, drug delivery and photothermal therapy. | |
Creative Diagnostics | Gold | Gold Nanorods conjugates are suitable for dark-field microscopy, two-photon photoluminescence imaging, photoacoustic imaging, kinetic immunoassay, sensors, drug delivery and photothermal therapy. | |
Creative Diagnostics | Gold | Gold Nanorods conjugates are suitable for dark-field microscopy, two-photon photoluminescence imaging, photoacoustic imaging, kinetic immunoassay, sensors, drug delivery and photothermal therapy. | |
Creative Diagnostics | Gold | Gold Nanorods conjugates are suitable for dark-field microscopy, two-photon photoluminescence imaging, photoacoustic imaging, kinetic immunoassay, sensors, drug delivery and photothermal therapy. | |
Creative Diagnostics | Gold | Gold Nanorods conjugates are suitable for dark-field microscopy, two-photon photoluminescence imaging, photoacoustic imaging, kinetic immunoassay, sensors, drug delivery and photothermal therapy. | |
Creative Diagnostics | Gold | Gold Nanorods conjugates are suitable for dark-field microscopy, two-photon photoluminescence imaging, photoacoustic imaging, kinetic immunoassay, sensors, drug delivery and photothermal therapy. | |
Creative Diagnostics | Gold | Gold Nanorods conjugates are suitable for dark-field microscopy, two-photon photoluminescence imaging, photoacoustic imaging, kinetic immunoassay, sensors, drug delivery and photothermal therapy. | |
Creative Diagnostics | Gold | Gold Nanorods conjugates are suitable for dark-field microscopy, two-photon photoluminescence imaging, photoacoustic imaging, kinetic immunoassay, sensors, drug delivery and photothermal therapy. | |
Creative Diagnostics | Gold | Gold Nanorods conjugates are suitable for dark-field microscopy, two-photon photoluminescence imaging, photoacoustic imaging, kinetic immunoassay, sensors, drug delivery and photothermal therapy. | |
Creative Diagnostics | Gold | Gold Nanorods conjugates are suitable for dark-field microscopy, two-photon photoluminescence imaging, photoacoustic imaging, kinetic immunoassay, sensors, drug delivery and photothermal therapy. | |
Creative Diagnostics | Gold | Gold Nanorods conjugates are suitable for dark-field microscopy, two-photon photoluminescence imaging, photoacoustic imaging, kinetic immunoassay, sensors, drug delivery and photothermal therapy. | |
Creative Diagnostics | Gold | Gold Nanorods conjugates are suitable for dark-field microscopy, two-photon photoluminescence imaging, photoacoustic imaging, kinetic immunoassay, sensors, drug delivery and photothermal therapy. | |
Creative Diagnostics | Gold | Gold Nanorods conjugates are suitable for dark-field microscopy, two-photon photoluminescence imaging, photoacoustic imaging, kinetic immunoassay, sensors, drug delivery and photothermal therapy. | |
Creative Diagnostics | Gold | Gold Nanorods conjugates are suitable for dark-field microscopy, two-photon photoluminescence imaging, photoacoustic imaging, kinetic immunoassay, sensors, drug delivery and photothermal therapy. | |
Creative Diagnostics | Gold | Gold Nanorods conjugates are suitable for dark-field microscopy, two-photon photoluminescence imaging, photoacoustic imaging, kinetic immunoassay, sensors, drug delivery and photothermal therapy. | |
Creative Diagnostics | Gold | Fluorophore labeled gold nanorods are suitable for in vitro dark field, bright field, and fluorescence imaging come in numerous conjugations. | |
Creative Diagnostics | Gold | Fluorophore labeled gold nanorods are suitable for in vitro dark field, bright field, and fluorescence imaging come in numerous conjugations. | |
Creative Diagnostics | Gold | Fluorophore labeled gold nanorods are suitable for in vitro dark field, bright field, and fluorescence imaging come in numerous conjugations. | |
Creative Diagnostics | Gold | Fluorophore labeled gold nanorods are suitable for in vitro dark field, bright field, and fluorescence imaging come in numerous conjugations. | |
Creative Diagnostics | Gold | Fluorophore labeled gold nanorods are suitable for in vitro dark field, bright field, and fluorescence imaging come in numerous conjugations. | |
Creative Diagnostics | Gold | Fluorophore labeled gold nanorods are suitable for in vitro dark field, bright field, and fluorescence imaging come in numerous conjugations. | |
Creative Diagnostics | Gold | Fluorophore labeled gold nanorods are suitable for in vitro dark field, bright field, and fluorescence imaging come in numerous conjugations. | |
Creative Diagnostics | Gold | Fluorophore labeled gold nanorods are suitable for in vitro dark field, bright field, and fluorescence imaging come in numerous conjugations. | |
Creative Diagnostics | Gold | Fluorophore labeled gold nanorods are suitable for in vitro dark field, bright field, and fluorescence imaging come in numerous conjugations. | |
Creative Diagnostics | Gold | Fluorophore labeled gold nanorods are suitable for in vitro dark field, bright field, and fluorescence imaging come in numerous conjugations. | |
Creative Diagnostics | Gold | Fluorophore labeled gold nanorods are suitable for in vitro dark field, bright field, and fluorescence imaging come in numerous conjugations. | |
Creative Diagnostics | Gold | Fluorophore labeled gold nanorods are suitable for in vitro dark field, bright field, and fluorescence imaging come in numerous conjugations. | |
Creative Diagnostics | Gold | Fluorophore labeled gold nanorods are suitable for in vitro dark field, bright field, and fluorescence imaging come in numerous conjugations. | |
Creative Diagnostics | Gold | Fluorophore labeled gold nanorods are suitable for in vitro dark field, bright field, and fluorescence imaging come in numerous conjugations. | |
Creative Diagnostics | Gold | Fluorophore labeled gold nanorods are suitable for in vitro dark field, bright field, and fluorescence imaging come in numerous conjugations. | |
Creative Diagnostics | Gold | Fluorophore labeled gold nanorods are suitable for in vitro dark field, bright field, and fluorescence imaging come in numerous conjugations. | |
Creative Diagnostics | Gold | Fluorophore labeled gold nanorods are suitable for in vitro dark field, bright field, and fluorescence imaging come in numerous conjugations. | |
Creative Diagnostics | Gold | Fluorophore labeled gold nanorods are suitable for in vitro dark field, bright field, and fluorescence imaging come in numerous conjugations. | |
Creative Diagnostics | Gold | Fluorophore labeled gold nanorods are suitable for in vitro dark field, bright field, and fluorescence imaging come in numerous conjugations. | |
Creative Diagnostics | Gold | Fluorophore labeled gold nanorods are suitable for in vitro dark field, bright field, and fluorescence imaging come in numerous conjugations. | |
Creative Diagnostics | Gold | Fluorophore labeled gold nanorods are suitable for in vitro dark field, bright field, and fluorescence imaging come in numerous conjugations. | |
Creative Diagnostics | Gold | Fluorophore labeled gold nanorods are suitable for in vitro dark field, bright field, and fluorescence imaging come in numerous conjugations. | |
Creative Diagnostics | Gold | Fluorophore labeled gold nanorods are suitable for in vitro dark field, bright field, and fluorescence imaging come in numerous conjugations. | |
Creative Diagnostics | Gold | Ideal for development of protein gold conjugates for use in applications such as blotting, lateral flow assays, microscopy and transmission electron microscopy (TEM). | |
Creative Diagnostics | Gold | Ideal for development of protein gold conjugates for use in applications such as blotting, lateral flow assays, microscopy and transmission electron microscopy (TEM). | |
Creative Diagnostics | Gold | Ideal for development of protein gold conjugates for use in applications such as blotting, lateral flow assays, microscopy and transmission electron microscopy (TEM). | |
Creative Diagnostics | Gold | Ideal for development of protein gold conjugates for use in applications such as blotting, lateral flow assays, microscopy and transmission electron microscopy (TEM). | |
Creative Diagnostics | Gold | Ideal for development of protein gold conjugates for use in applications such as blotting, lateral flow assays, microscopy and transmission electron microscopy (TEM). | |
Creative Diagnostics | Gold | Ideal for development of protein gold conjugates for use in applications such as blotting, lateral flow assays, microscopy and transmission electron microscopy (TEM). | |
Creative Diagnostics | Gold | Ideal for development of protein gold conjugates for use in applications such as blotting, lateral flow assays, microscopy and transmission electron microscopy (TEM). | |
Creative Diagnostics | Gold | Ideal for development of protein gold conjugates for use in applications such as blotting, lateral flow assays, microscopy and transmission electron microscopy (TEM). | |
Creative Diagnostics | Gold | Ideal for development of protein gold conjugates for use in applications such as blotting, lateral flow assays, microscopy and transmission electron microscopy (TEM). | |
Creative Diagnostics | Gold | Ideal for development of protein gold conjugates for use in applications such as blotting, lateral flow assays, microscopy and transmission electron microscopy (TEM). | |
Creative Diagnostics | Gold | Ideal for development of protein gold conjugates for use in applications such as blotting, lateral flow assays, microscopy and transmission electron microscopy (TEM). | |
Creative Diagnostics | Gold | DiagNano Gold Nanoshells are widely used in optical sensors, surface enhanced Raman scattering (SERS), drug delivery and photothermal therapy. | |
Creative Diagnostics | Gold | DiagNano Gold Nanoshells are widely used in optical sensors, surface enhanced Raman scattering (SERS), drug delivery and photothermal therapy. | |
Creative Diagnostics | Gold | DiagNano Gold Nanoshells are widely used in optical sensors, surface enhanced Raman scattering (SERS), drug delivery and photothermal therapy. | |
nanoComposix, Inc. | Gold | 1-6nm | Phosphonium stabilized, highly concentrated |
CAN GmbH | Gold | 10-100nm | citrate stabilized; 10-100nm in 10nm increments |
BBI Solutions | Gold | 100nm | Size: 100nm, Particles /ml 5.6E9, Mean size: 96.0 � 104.0 nm, CV ?8% |
Cytodiagnostics | Gold | 100nm | Citric acid stabilized gold colloid; Supplied in 0.1mg/ml citrate supplemented with 0.025% Tween |
Cytodiagnostics | Gold | 100nm | Carboxyl (carboxyl-PEG5000-SH) Gold Nanoparticles; supplied in double distilled water |
Cytodiagnostics | Gold | 100nm | Methylated (methoxy-PEG5000-SH) Gold Nanoparticles; Supplied in double distilled water supplemented with 0.05% sodium azide |
Cytodiagnostics | Gold | 100nm | Amine (amine-PEG5000-SH) Gold Nanoparticles; Supplied in double distilled water |
Cytodiagnostics | Gold | 100nm | Citric acid stabilized gold colloid; Supplied in 0.1mg/ml citrate supplemented with 0.025% Tween |
Cytodiagnostics | Gold | 100nm | Carboxyl (carboxyl-PEG5000-SH) Gold Nanoparticles; supplied in double distilled water |
Cytodiagnostics | Gold | 100nm | Methylated (methoxy-PEG5000-SH) Gold Nanoparticles; Supplied in double distilled water supplemented with 0.05% sodium azide |
Cytodiagnostics | Gold | 100nm | Amine (amine-PEG5000-SH) Gold Nanoparticles; Supplied in double distilled water |
Inframat Advanced Materials LLC | Gold | 100nm | P(99.99) |
SkySpring Nanomaterials, Inc. | Gold | 100nm | P(99.9%) spherical |
SkySpring Nanomaterials, Inc. | Gold | 100nm | P(99.9%) spherical |
BBI Solutions | Gold | 10nm | Size: 10nm, Particles /ml 5.70E12, Mean size: 9.0 � 11.0 nm, CV ?10% |
Cline Scientific | Gold | 10nm | Citrate stabilized in Milli-Q, spherical |
Nanocs | Gold | 10nm | In aqueous solution, 0.01% Au |
Nanocs | Gold | 10nm | Dextran-coated, in aqueous solution, 0.01% Au |
Nanocs | Gold | 10nm | PEG-coated, in aqueous solution, 0.01% Au |
Nanocs | Gold | 10nm | Biotin labeled, in aqueous solution, 0.01% Au |
Nanocs | Gold | 10nm | Streptavidin labeled, in aqueous solution, 0.01% Au |
PlasmaChem GmbH | Gold | 10nm | colloidal suspension 0.5 mg/ml |
Particle Works | Gold | 10nm Gold Nanoparticles PEG 3000 Functionalized 5 nm | Size: 11 nm Size distribution: CV<10% Solvent: Water Coating: Poly(ethylene glycol) 2-mercaptoethyl ether acetic acid (Mw=3000) Concentration of gold (ions): 0.5 mM Available volumes: 5 ml 20 ml Bulk quantities (up to 1000 L) are available at request |
Aarshanano Composite Technologies Pvt.Ltd. | Gold | 10nm>90nm | |
Meliorum Technologies Inc. | Gold | 13nm | Suspended in toluene |
Meliorum Technologies Inc. | Gold | 13nm | Suspended in water |
BBI Solutions | Gold | 150nm | Size: 150nm, Particles /ml 1.66E9, Mean size: 145.0 � 155.0 nm, CV ?8% |
BBI Solutions | Gold | 15nm | Size: 15nm, Particles /ml 1.40E12, Mean size: 14.0 � 16.5 nm, CV ?10% |
Cline Scientific | Gold | 15nm | Citrate stabilized in Milli-Q, spherical |
Cytodiagnostics | Gold | 15nm | Citric acid stabilized gold colloid; Supplied in 0.1mg/ml citrate supplemented with 0.025% Tween |
Cytodiagnostics | Gold | 15nm | Carboxyl (carboxyl-PEG5000-SH) Gold Nanoparticles; supplied in double distilled water |
Cytodiagnostics | Gold | 15nm | Methylated (methoxy-PEG5000-SH) Gold Nanoparticles; Supplied in double distilled water supplemented with 0.05% sodium azide |
Cytodiagnostics | Gold | 15nm | Amine (amine-PEG5000-SH) Gold Nanoparticles; Supplied in double distilled water |
Cytodiagnostics | Gold | 15nm | Citric acid stabilized gold colloid; Supplied in 0.1mg/ml citrate supplemented with 0.025% Tween |
Cytodiagnostics | Gold | 15nm | Carboxyl (carboxyl-PEG5000-SH) Gold Nanoparticles; supplied in double distilled water |
Cytodiagnostics | Gold | 15nm | Methylated (methoxy-PEG5000-SH) Gold Nanoparticles; Supplied in double distilled water supplemented with 0.05% sodium azide |
Cytodiagnostics | Gold | 15nm | Amine (amine-PEG5000-SH) Gold Nanoparticles; Supplied in double distilled water |
GoodFellow | Gold | 15nm | P(99.95%) |
Nanocs | Gold | 15nm | In aqueous solution, 0.01% Au |
Nanoprobes, Inc. | Gold | 15nm | X-ray contrast agent |
Nanoprobes, Inc. | Gold | 15nm | X-ray contrast agent |
Meliorum Technologies Inc. | Gold | 17nm | Suspended in toluene |
Meliorum Technologies Inc. | Gold | 17nm | Suspended in water |
Nanoprobes, Inc. | Gold | 1nm | Labeling agents |
Nanoprobes, Inc. | Gold | 1nm | Labeling agents |
Nanoprobes, Inc. | Gold | 2-4nm | functionalized (hydrophilic, hydrophobic, or amphiphilic) |
Nanoprobes, Inc. | Gold | 2-4nm | functionalized (hydrophilic, hydrophobic, or amphiphilic) |
IMRA America, Inc. (NanoBio Division) | Gold | 20 nm | |
BBI Solutions | Gold | 200nm | Size: 200nm, Particles /ml 7.0E8, Mean size: 194.0 � 204.0 nm, CV ?8% |
BBI Solutions | Gold | 20nm | Size: 20nm, Particles /ml 7.00E11, Mean size: 19.0 � 21.0 nm, CV ?8% |
Cline Scientific | Gold | 20nm | Citrate stabilized in Milli-Q, spherical |
Cytodiagnostics | Gold | 20nm | Citric acid stabilized gold colloid; Supplied in 0.1mg/ml citrate supplemented with 0.025% Tween |
Cytodiagnostics | Gold | 20nm | Carboxyl (carboxyl-PEG5000-SH) Gold Nanoparticles; supplied in double distilled water |
Cytodiagnostics | Gold | 20nm | Methylated (methoxy-PEG5000-SH) Gold Nanoparticles; Supplied in double distilled water supplemented with 0.05% sodium azide |
Cytodiagnostics | Gold | 20nm | Amine (amine-PEG5000-SH) Gold Nanoparticles; Supplied in double distilled water |
Cytodiagnostics | Gold | 20nm | Citric acid stabilized gold colloid; Supplied in 0.1mg/ml citrate supplemented with 0.025% Tween |
Cytodiagnostics | Gold | 20nm | Carboxyl (carboxyl-PEG5000-SH) Gold Nanoparticles; supplied in double distilled water |
Cytodiagnostics | Gold | 20nm | Methylated (methoxy-PEG5000-SH) Gold Nanoparticles; Supplied in double distilled water supplemented with 0.05% sodium azide |
Cytodiagnostics | Gold | 20nm | Amine (amine-PEG5000-SH) Gold Nanoparticles; Supplied in double distilled water |
Nanocs | Gold | 20nm | In aqueous solution, 0.01% Au |
Nanocs | Gold | 20nm | Dextran-coated, in aqueous solution, 0.01% Au |
Nanocs | Gold | 20nm | PEG-coated, in aqueous solution, 0.01% Au |
Nanocs | Gold | 20nm | Biotin labeled, in aqueous solution, 0.01% Au |
Nanocs | Gold | 20nm | Streptavidin labeled, in aqueous solution, 0.01% Au |
Particle Works | Gold | 20nm Gold Nanoparticles PEG 3000 Functionalized 5 nm | Size: 19.05+/-1.60 nm Size distribution: CV<10% Solvent: Water Coating: Poly(ethylene glycol) 2-mercaptoethyl ether acetic acid (Mw=3000) Concentration of gold (ions): 0.5 mM Available volumes: 5 ml or 20 ml Bulk quantities (up to 1000 L) are available on request |
BBI Solutions | Gold | 250nm | Size: 250nm, Particles /ml 3.6E8, Mean size: 242.0 � 258.0 nm, CV ?8% |
Nanocs | Gold | 25nm | In aqueous solution, 0.01% Au |
BBI Solutions | Gold | 2nm | Size: 2nm, Particles /ml 1.5E14 |
Nanocs | Gold | 2nm | In aqueous solution, 0.01% Au |
Nanoprobes, Inc. | Gold | 3-5nm | functionalized (hydrophilic, hydrophobic, or amphiphilic) |
Nanoprobes, Inc. | Gold | 3-5nm | functionalized (hydrophilic, hydrophobic, or amphiphilic) |
BBI Solutions | Gold | 30nm | Size: 30nm, Particles/ml 2.0E11, Mean size: 28.0 - 32.0nm, CV ?8% |
Cytodiagnostics | Gold | 30nm | Citric acid stabilized gold colloid; Supplied in 0.1mg/ml citrate supplemented with 0.025% Tween |
Cytodiagnostics | Gold | 30nm | Carboxyl (carboxyl-PEG5000-SH) Gold Nanoparticles; supplied in double distilled water |
Cytodiagnostics | Gold | 30nm | Methylated (methoxy-PEG5000-SH) Gold Nanoparticles; Supplied in double distilled water supplemented with 0.05% sodium azide |
Cytodiagnostics | Gold | 30nm | Amine (amine-PEG5000-SH) Gold Nanoparticles; Supplied in double distilled water |
Cytodiagnostics | Gold | 30nm | Citric acid stabilized gold colloid; Supplied in 0.1mg/ml citrate supplemented with 0.025% Tween |
Cytodiagnostics | Gold | 30nm | Carboxyl (carboxyl-PEG5000-SH) Gold Nanoparticles; supplied in double distilled water |
Cytodiagnostics | Gold | 30nm | Methylated (methoxy-PEG5000-SH) Gold Nanoparticles; Supplied in double distilled water supplemented with 0.05% sodium azide |
Cytodiagnostics | Gold | 30nm | Amine (amine-PEG5000-SH) Gold Nanoparticles; Supplied in double distilled water |
Nanocs | Gold | 30nm | In aqueous solution, 0.01% Au |
Nanocs | Gold | 30nm | Dextran-coated, in aqueous solution, 0.01% Au |
Nanocs | Gold | 30nm | PEG-coated, in aqueous solution, 0.01% Au |
Nanocs | Gold | 30nm | Biotin labeled, in aqueous solution, 0.01% Au |
Nanocs | Gold | 30nm | Streptavidin labeled, in aqueous solution, 0.01% Au |
Nanocs | Gold | 35nm | In aqueous solution, 0.01% Au |
IMRA America, Inc. (NanoBio Division) | Gold | 40 nm | |
Particular GmbH | Gold | 40-70nm | Pure nanoparticle dispersions from laser ablation |
Particular GmbH | Gold | 40-70nm | Pure nanoparticle dispersions from laser ablation |
BBI Solutions | Gold | 40nm | Size: 40nm, Particles /ml 9.00E10, Mean size: 37.0 � 43.0 nm, CV ?8% |
Cytodiagnostics | Gold | 40nm | Citric acid stabilized gold colloid; Supplied in 0.1mg/ml citrate supplemented with 0.025% Tween |
Cytodiagnostics | Gold | 40nm | Carboxyl (carboxyl-PEG5000-SH) Gold Nanoparticles; supplied in double distilled water |
Cytodiagnostics | Gold | 40nm | Methylated (methoxy-PEG5000-SH) Gold Nanoparticles; Supplied in double distilled water supplemented with 0.05% sodium azide |
Cytodiagnostics | Gold | 40nm | Amine (amine-PEG5000-SH) Gold Nanoparticles; Supplied in double distilled water |
Cytodiagnostics | Gold | 40nm | Citric acid stabilized gold colloid; Supplied in 0.1mg/ml citrate supplemented with 0.025% Tween |
Cytodiagnostics | Gold | 40nm | Carboxyl (carboxyl-PEG5000-SH) Gold Nanoparticles; supplied in double distilled water |
Cytodiagnostics | Gold | 40nm | Methylated (methoxy-PEG5000-SH) Gold Nanoparticles; Supplied in double distilled water supplemented with 0.05% sodium azide |
Cytodiagnostics | Gold | 40nm | Amine (amine-PEG5000-SH) Gold Nanoparticles; Supplied in double distilled water |
Nanocs | Gold | 40nm | In aqueous solution, 0.01% Au |
Nanocs | Gold | 40nm | Dextran-coated, in aqueous solution, 0.01% Au |
Nanocs | Gold | 40nm | PEG-coated, in aqueous solution, 0.01% Au |
Nanocs | Gold | 40nm | Biotin labeled, in aqueous solution, 0.01% Au |
Nanocs | Gold | 40nm | Streptavidin labeled, in aqueous solution, 0.01% Au |
Particular GmbH | Gold | 5-10nm | Pure nanoparticle dispersions from laser ablation |
Particular GmbH | Gold | 5-10nm | Conjugated to customized DNA |
Particular GmbH | Gold | 5-10nm | Conjugated to cationic peptides |
Particular GmbH | Gold | 5-10nm | Conjugated to secondary antibodies (anti-IgG) |
Particular GmbH | Gold | 5-10nm | Pure nanoparticle dispersions from laser ablation |
Particular GmbH | Gold | 5-10nm | Conjugated to customized DNA |
Particular GmbH | Gold | 5-10nm | Conjugated to cationic peptides |
Particular GmbH | Gold | 5-10nm | Conjugated to secondary antibodies (anti-IgG) |
nanoComposix, Inc. | Gold | 5-127nm | Monodisperse |
Particle Works | Gold | 5.5 nm | Size: 5.5 nm Size distribution: CV< 5% Solvent: Toluene Coating: 1-Dodecanethiol Concentration of gold (ions): 10 mM Concentration of Dodecanethiol: 10 mM Available quantities 5 ml or 20 ml Bulk quantities (up to 1000 kg) are available on request |
IoLiTec | Gold | 50-100nm | P(99.99%) |
BBI Solutions | Gold | 50nm | Size: 50nm, Particles /ml 4.50E10, Mean size: 47 � 53 nm, CV ?8% |
Cytodiagnostics | Gold | 50nm | Citric acid stabilized gold colloid; Supplied in 0.1mg/ml citrate supplemented with 0.025% Tween |
Cytodiagnostics | Gold | 50nm | Carboxyl (carboxyl-PEG5000-SH) Gold Nanoparticles; supplied in double distilled water |
Cytodiagnostics | Gold | 50nm | Methylated (methoxy-PEG5000-SH) Gold Nanoparticles; Supplied in double distilled water supplemented with 0.05% sodium azide |
Cytodiagnostics | Gold | 50nm | Amine (amine-PEG5000-SH) Gold Nanoparticles; Supplied in double distilled water |
Cytodiagnostics | Gold | 50nm | Citric acid stabilized gold colloid; Supplied in 0.1mg/ml citrate supplemented with 0.025% Tween |
Cytodiagnostics | Gold | 50nm | Carboxyl (carboxyl-PEG5000-SH) Gold Nanoparticles; supplied in double distilled water |
Cytodiagnostics | Gold | 50nm | Methylated (methoxy-PEG5000-SH) Gold Nanoparticles; Supplied in double distilled water supplemented with 0.05% sodium azide |
Cytodiagnostics | Gold | 50nm | Amine (amine-PEG5000-SH) Gold Nanoparticles; Supplied in double distilled water |
Nanocs | Gold | 50nm | In aqueous solution, 0.01% Au |
Nanocs | Gold | 50nm | Dextran-coated, in aqueous solution, 0.01% Au |
Nanocs | Gold | 50nm | PEG-coated, in aqueous solution, 0.01% Au |
Nanocs | Gold | 50nm | Biotin labeled, in aqueous solution, 0.01% Au |
Nanocs | Gold | 50nm | Streptavidin labeled, in aqueous solution, 0.01% Au |
BBI Solutions | Gold | 5nm | Size: 5nm, Particles /ml 5.00E13, Mean size: 4.5 � 6.0 nm, CV ?15% |
Cline Scientific | Gold | 5nm | Citrate stabilized in Milli-Q, spherical |
Nanocs | Gold | 5nm | In aqueous solution, 0.01% Au |
Nanocs | Gold | 5nm | Biotin labeled, in aqueous solution, 0.01% Au |
Nanocs | Gold | 5nm | Streptavidin labeled, in aqueous solution, 0.01% Au |
BBI Solutions | Gold | 60nm | Size: 60nm, Particles /ml 2.60E10, Mean size: 57.0 � 63.0 nm, CV ?8% |
Cytodiagnostics | Gold | 60nm | Citric acid stabilized gold colloid; Supplied in 0.1mg/ml citrate supplemented with 0.025% Tween |
Cytodiagnostics | Gold | 60nm | Carboxyl (carboxyl-PEG5000-SH) Gold Nanoparticles; supplied in double distilled water |
Cytodiagnostics | Gold | 60nm | Methylated (methoxy-PEG5000-SH) Gold Nanoparticles; Supplied in double distilled water supplemented with 0.05% sodium azide |
Cytodiagnostics | Gold | 60nm | Amine (amine-PEG5000-SH) Gold Nanoparticles; Supplied in double distilled water |
Cytodiagnostics | Gold | 60nm | Citric acid stabilized gold colloid; Supplied in 0.1mg/ml citrate supplemented with 0.025% Tween |
Cytodiagnostics | Gold | 60nm | Carboxyl (carboxyl-PEG5000-SH) Gold Nanoparticles; supplied in double distilled water |
Cytodiagnostics | Gold | 60nm | Methylated (methoxy-PEG5000-SH) Gold Nanoparticles; Supplied in double distilled water supplemented with 0.05% sodium azide |
Cytodiagnostics | Gold | 60nm | Amine (amine-PEG5000-SH) Gold Nanoparticles; Supplied in double distilled water |
Ocean NanoTech | Gold | 6nm | Surface ligand dodecanethiol |
Ocean NanoTech | Gold | 6nm | In water/surface ligand COOH |
Cytodiagnostics | Gold | 70nm | Citric acid stabilized gold colloid; Supplied in 0.1mg/ml citrate supplemented with 0.025% Tween |
Cytodiagnostics | Gold | 70nm | Carboxyl (carboxyl-PEG5000-SH) Gold Nanoparticles; supplied in double distilled water |
Cytodiagnostics | Gold | 70nm | Methylated (methoxy-PEG5000-SH) Gold Nanoparticles; Supplied in double distilled water supplemented with 0.05% sodium azide |
Cytodiagnostics | Gold | 70nm | Amine (amine-PEG5000-SH) Gold Nanoparticles; Supplied in double distilled water |
Cytodiagnostics | Gold | 70nm | Citric acid stabilized gold colloid; Supplied in 0.1mg/ml citrate supplemented with 0.025% Tween |
Cytodiagnostics | Gold | 70nm | Carboxyl (carboxyl-PEG5000-SH) Gold Nanoparticles; supplied in double distilled water |
Cytodiagnostics | Gold | 70nm | Methylated (methoxy-PEG5000-SH) Gold Nanoparticles; Supplied in double distilled water supplemented with 0.05% sodium azide |
Cytodiagnostics | Gold | 70nm | Amine (amine-PEG5000-SH) Gold Nanoparticles; Supplied in double distilled water |
BBI Solutions | Gold | 80nm | Size: 80nm, Particles /ml 1.10E10, Mean size: 77.0 � 85.0 nm, CV ?8% |
Cytodiagnostics | Gold | 80nm | Citric acid stabilized gold colloid; Supplied in 0.1mg/ml citrate supplemented with 0.025% Tween |
Cytodiagnostics | Gold | 80nm | Carboxyl (carboxyl-PEG5000-SH) Gold Nanoparticles; supplied in double distilled water |
Cytodiagnostics | Gold | 80nm | Methylated (methoxy-PEG5000-SH) Gold Nanoparticles; Supplied in double distilled water supplemented with 0.05% sodium azide |
Cytodiagnostics | Gold | 80nm | Amine (amine-PEG5000-SH) Gold Nanoparticles; Supplied in double distilled water |
Cytodiagnostics | Gold | 80nm | Citric acid stabilized gold colloid; Supplied in 0.1mg/ml citrate supplemented with 0.025% Tween |
Cytodiagnostics | Gold | 80nm | Carboxyl (carboxyl-PEG5000-SH) Gold Nanoparticles; supplied in double distilled water |
Cytodiagnostics | Gold | 80nm | Methylated (methoxy-PEG5000-SH) Gold Nanoparticles; Supplied in double distilled water supplemented with 0.05% sodium azide |
Cytodiagnostics | Gold | 80nm | Amine (amine-PEG5000-SH) Gold Nanoparticles; Supplied in double distilled water |
Meliorum Technologies Inc. | Gold | 8nm | Suspended in water |
Meliorum Technologies Inc. | Gold | 8nm | Suspended in toluene |
Cytodiagnostics | Gold | 90nm | Citric acid stabilized gold colloid; Supplied in 0.1mg/ml citrate supplemented with 0.025% Tween |
Cytodiagnostics | Gold | 90nm | Carboxyl (carboxyl-PEG5000-SH) Gold Nanoparticles; supplied in double distilled water |
Cytodiagnostics | Gold | 90nm | Methylated (methoxy-PEG5000-SH) Gold Nanoparticles; Supplied in double distilled water supplemented with 0.05% sodium azide |
Cytodiagnostics | Gold | 90nm | Amine (amine-PEG5000-SH) Gold Nanoparticles; Supplied in double distilled water |
Cytodiagnostics | Gold | 90nm | Citric acid stabilized gold colloid; Supplied in 0.1mg/ml citrate supplemented with 0.025% Tween |
Cytodiagnostics | Gold | 90nm | Carboxyl (carboxyl-PEG5000-SH) Gold Nanoparticles; supplied in double distilled water |
Cytodiagnostics | Gold | 90nm | Methylated (methoxy-PEG5000-SH) Gold Nanoparticles; Supplied in double distilled water supplemented with 0.05% sodium azide |
Cytodiagnostics | Gold | 90nm | Amine (amine-PEG5000-SH) Gold Nanoparticles; Supplied in double distilled water |
MKnano | Gold | 90nm | P(99.9%) |
MKnano | Gold | 90nm | P(99.9%) |
Sisco Research Laboratories Pvt. Ltd. | Gold | 90nm | P(>99%) |
Sisco Research Laboratories Pvt. Ltd. | Gold | 90nm | P(>99%) |
IoLiTec | Gold | <100nm | P(99.5%) |
HIQ-NANO srl | Gold | from 5 to 150 nm | Disperded in Water |
QuantumSphere, Inc. | Iron | 10-40nm | FCC/amorphous |
QuantumSphere, Inc. | Iron | 10-40nm | FCC/amorphous |
Ocean NanoTech | Iron | 10nm | Magnetic iron oxide nanocrystals in chloroform |
Ocean NanoTech | Iron | 10nm | Magnetic iron oxide nanocrystals with carboxyl group in water |
Ocean NanoTech | Iron | 10nm | Magnetic iron oxide nanocrystals in water with amine group |
Ocean NanoTech | Iron | 10nm | Magnetic iron oxide nanocrystals in water with PDDA surface |
Ocean NanoTech | Iron | 10nm | Magnetic iron oxide nanocrystals in water with NTA nickel surface |
Ocean NanoTech | Iron | 10nm | Magnetic iron oxide nanocrystals in water with biotin surface |
Ocean NanoTech | Iron | 10nm | Magnetic iron oxide nanocrystals in water with streptavidin surface |
Ocean NanoTech | Iron | 15nm | Magnetic iron oxide nanocrystals in chloroform |
Ocean NanoTech | Iron | 15nm | Magnetic iron oxide nanocrystals with carboxyl group in water |
Ocean NanoTech | Iron | 15nm | Magnetic iron oxide nanocrystals in water with amine group |
Ocean NanoTech | Iron | 15nm | Magnetic iron oxide nanocrystals in water with PDDA surface |
Ocean NanoTech | Iron | 15nm | Magnetic iron oxide nanocrystals in water with NTA nickel surface |
Ocean NanoTech | Iron | 15nm | Magnetic iron oxide nanocrystals in water with biotin surface |
Ocean NanoTech | Iron | 15nm | Magnetic iron oxide nanocrystals in water with streptavidin surface |
Ocean NanoTech | Iron | 20nm | Magnetic iron oxide nanocrystals in chloroform |
Ocean NanoTech | Iron | 20nm | Magnetic iron oxide nanocrystals with carboxyl group in water |
Ocean NanoTech | Iron | 20nm | Magnetic iron oxide nanocrystals in water with amine group |
Ocean NanoTech | Iron | 20nm | Magnetic iron oxide nanocrystals in water with PDDA surface |
Ocean NanoTech | Iron | 20nm | Magnetic iron oxide nanocrystals in water with NTA nickel surface |
Ocean NanoTech | Iron | 20nm | Magnetic iron oxide nanocrystals in water with biotin surface |
Ocean NanoTech | Iron | 20nm | Magnetic iron oxide nanocrystals in water with streptavidin surface |
Applied Nanotech, Inc. | Iron | 25nm | P(>99%) |
Applied Nanotech, Inc. | Iron | 25nm | P(>99%) |
IoLiTec | Iron | 25nm | P(99.9%) |
Ocean NanoTech | Iron | 25nm | Magnetic iron oxide nanocrystals in chloroform |
Ocean NanoTech | Iron | 25nm | Magnetic iron oxide nanocrystals with carboxyl group in water |
Ocean NanoTech | Iron | 25nm | Magnetic iron oxide nanocrystals in water with amine group |
Ocean NanoTech | Iron | 25nm | Magnetic iron oxide nanocrystals in water with PDDA surface |
Ocean NanoTech | Iron | 25nm | Magnetic iron oxide nanocrystals in water with NTA nickel surface |
Ocean NanoTech | Iron | 25nm | Magnetic iron oxide nanocrystals in water with biotin surface |
Ocean NanoTech | Iron | 25nm | Magnetic iron oxide nanocrystals in water with streptavidin surface |
EPRUI Nanoparticles & Microspheres Co. Ltd | Iron | 30-100nm | P(>99.9%); spherical |
EPRUI Nanoparticles & Microspheres Co. Ltd | Iron | 30-100nm | P(>99.9%); spherical |
Ocean NanoTech | Iron | 30nm | Magnetic iron oxide nanocrystals in chloroform |
Ocean NanoTech | Iron | 30nm | Magnetic iron oxide nanocrystals with carboxyl group in water |
Ocean NanoTech | Iron | 30nm | Magnetic iron oxide nanocrystals in water with amine group |
Ocean NanoTech | Iron | 30nm | Magnetic iron oxide nanocrystals in water with PDDA surface |
Ocean NanoTech | Iron | 30nm | Magnetic iron oxide nanocrystals in water with NTA nickel surface |
Ocean NanoTech | Iron | 30nm | Magnetic iron oxide nanocrystals in water with biotin surface |
Ocean NanoTech | Iron | 30nm | Magnetic iron oxide nanocrystals in water with streptavidin surface |
Ocean NanoTech | Iron | 35-45nm | Magnetic iron oxide nanocrystals with carboxyl group in water |
Ocean NanoTech | Iron | 35-45nm | Magnetic iron oxide nanocrystals in water with PDDA surface |
Ocean NanoTech | Iron | 35nm | Magnetic iron oxide nanocrystals in chloroform |
Ocean NanoTech | Iron | 35nm | Magnetic iron oxide nanocrystals in water with amine group |
Ocean NanoTech | Iron | 35nm | Magnetic iron oxide nanocrystals in water with NTA nickel surface |
Ocean NanoTech | Iron | 35nm | Magnetic iron oxide nanocrystals in water with biotin surface |
Ocean NanoTech | Iron | 35nm | Magnetic iron oxide nanocrystals in water with streptavidin surface |
SkySpring Nanomaterials, Inc. | Iron | 40-60nm | P(99.9%) |
SkySpring Nanomaterials, Inc. | Iron | 40-60nm | P(99.9%) |
Ocean NanoTech | Iron | 40nm | Magnetic iron oxide nanocrystals in chloroform |
Ocean NanoTech | Iron | 40nm | Magnetic iron oxide nanocrystals with carboxyl group in water |
Ocean NanoTech | Iron | 40nm | Magnetic iron oxide nanocrystals in water with amine group |
Ocean NanoTech | Iron | 40nm | Magnetic iron oxide nanocrystals in water with PDDA surface |
Ocean NanoTech | Iron | 40nm | Magnetic iron oxide nanocrystals in water with NTA nickel surface |
Ocean NanoTech | Iron | 40nm | Magnetic iron oxide nanocrystals in water with biotin surface |
Ocean NanoTech | Iron | 40nm | Magnetic iron oxide nanocrystals in water with streptavidin surface |
Ocean NanoTech | Iron | 40nm | Magnetic iron oxide nanocrystals in water with streptavidin surface |
Ocean NanoTech | Iron | 45nm | Magnetic iron oxide nanocrystals in chloroform |
Ocean NanoTech | Iron | 45nm | Magnetic iron oxide nanocrystals with carboxyl group in water |
Ocean NanoTech | Iron | 45nm | Magnetic iron oxide nanocrystals in water with amine group |
Ocean NanoTech | Iron | 45nm | Magnetic iron oxide nanocrystals in water with PDDA surface |
Ocean NanoTech | Iron | 45nm | Magnetic iron oxide nanocrystals in water with NTA nickel surface |
Ocean NanoTech | Iron | 45nm | Magnetic iron oxide nanocrystals in water with biotin surface |
Ocean NanoTech | Iron | 45nm | Magnetic iron oxide nanocrystals in water with streptavidin surface |
Ocean NanoTech | Iron | 45nm | Magnetic iron oxide nanocrystals in water with streptavidin surface |
NTbase | Iron | 50nm | P(99.9) spherical |
Ocean NanoTech | Iron | 50nm | Magnetic iron oxide nanocrystals in chloroform |
Ocean NanoTech | Iron | 50nm | Magnetic iron oxide nanocrystals with carboxyl group in water |
Ocean NanoTech | Iron | 50nm | Magnetic iron oxide nanocrystals in water with amine group |
Ocean NanoTech | Iron | 50nm | Magnetic iron oxide nanocrystals in water with PDDA surface |
Ocean NanoTech | Iron | 50nm | Magnetic iron oxide nanocrystals in water with NTA nickel surface |
Ocean NanoTech | Iron | 50nm | Magnetic iron oxide nanocrystals in water with biotin surface |
Ocean NanoTech | Iron | 50nm | Magnetic iron oxide nanocrystals in water with streptavidin surface |
Ocean NanoTech | Iron | 50nm | Magnetic iron oxide nanocrystals in water with streptavidin surface |
Ocean NanoTech | Iron | 5nm | Magnetic iron oxide nanocrystals in chloroform |
Ocean NanoTech | Iron | 5nm | Magnetic iron oxide nanocrystals with carboxyl group in water |
IoLiTec | Iron | 60-80nm | P(99.8%) |
SkySpring Nanomaterials, Inc. | Iron | 60-80nm | P(99.9%) |
SkySpring Nanomaterials, Inc. | Iron | 60-80nm | P(99.9%) |
QuantumSphere, Inc. | Manganese | 30-50nm | FCC/amorphous |
QuantumSphere, Inc. | Manganese | 30-50nm | FCC/amorphous |
IoLiTec | Molybdenum | 100nm | P(>99%) |
EPRUI Nanoparticles & Microspheres Co. Ltd | Molybdenum | 30-80nm | P(99.9) spherical |
EPRUI Nanoparticles & Microspheres Co. Ltd | Molybdenum | 30-80nm | P(99.9) spherical |
SkySpring Nanomaterials, Inc. | Molybdenum | 60-80nm | P(99.9%) |
SkySpring Nanomaterials, Inc. | Molybdenum | 60-80nm | P(99.9%) |
Inframat Advanced Materials LLC | Molybdenum | 80nm | P(99.5) |
NTbase | Molybdenum | 80nm | P(99.95) spherical |
Nano Materials and Processes, Inc. | Nanodiamond | UDD in water suspension for electrochemistry, lubricant cooling, polishing, water based paint | |
Nano Materials and Processes, Inc. | Nanodiamond | Superfine polishing, specialty coatings, etc. | |
Nano Materials and Processes, Inc. | Nanodiamond | ||
Nano Materials and Processes, Inc. | Nanodiamond (carbon) | Super polishing, catalyst, special coverings, medical or veterinary applications, cosmetics Super polishing, catalyst, ultra thin coatings, medical, veterinary, cosmetics | |
Nano Materials and Processes, Inc. | Nanodiamond (carbon) | Powder for: composites, composite coatings, glues, paints | |
Nano Materials and Processes, Inc. | Nanodiamond (carbon) | 4-10 nm initial crystal size, graphene shell | |
Nano Technology Inc. | Nickel | 100nm | Spherical |
IoLiTec | Nickel | 20nm | P(99.8%) |
Sisco Research Laboratories Pvt. Ltd. | Nickel | 20nm | P(>99.9%) spherical |
Sisco Research Laboratories Pvt. Ltd. | Nickel | 20nm | P(>99.9%) spherical |
Applied Nanotech, Inc. | Nickel | 25nm | P(>99%) |
Applied Nanotech, Inc. | Nickel | 25nm | P(>99%) |
EPRUI Nanoparticles & Microspheres Co. Ltd | Nickel | 30-80nm | P(>99.5%); cubic |
EPRUI Nanoparticles & Microspheres Co. Ltd | Nickel | 30-80nm | P(>99.5%); cubic |
Marketech International | Nickel | 35nm | |
SkySpring Nanomaterials, Inc. | Nickel | 40-60nm | P(99.9%) |
SkySpring Nanomaterials, Inc. | Nickel | 40-60nm | P(99.9%) |
SkySpring Nanomaterials, Inc. | Nickel | 45-55nm | P(92.65%), carbonyl nickel |
SkySpring Nanomaterials, Inc. | Nickel | 45-55nm | P(92.65%), carbonyl nickel |
QuantumSphere, Inc. | Nickel | 5-20nm | Ni(core)/NiO(shell) |
NanoLab | Nickel | 50-120nm | P(>99%) |
NTbase | Nickel | 50nm | P(99.6) spherical |
MTI Corporation | Nickel | 55nm | |
IoLiTec | Nickel | 60-80nm | P(99.9%) |
SkySpring Nanomaterials, Inc. | Nickel | 60-80nm | P(99.9%) |
SkySpring Nanomaterials, Inc. | Nickel | 60-80nm | P(99.9%) |
Inframat Advanced Materials LLC | Nickel | 80nm | P(99..5) |
MKnano | Nickel | 90nm | P(>99%) |
MKnano | Nickel | 90nm | P(>99%) |
Particular GmbH | Platinum | 40-70nm | Pure nanoparticle dispersions from laser ablation |
Particular GmbH | Platinum | 40-70nm | Pure nanoparticle dispersions from laser ablation |
Particular GmbH | Platinum | 5-10nm | Pure nanoparticle dispersions from laser ablation |
Particular GmbH | Platinum | 5-10nm | Pure nanoparticle dispersions from laser ablation |
Applied Quantum Materials Inc. | Silicon | 10 to 200 nm | Non-porous, monodisperse Silicon nanoparticles |
Marketech International | Silicon | 100nm | Amorphous silicon |
Meliorum Technologies Inc. | Silicon | 30nm | Monodisperse, P(99.99) |
Meliorum Technologies Inc. | Silicon | 30nm | Suspended in water, monodisperse, P(99.99) |
Sisco Research Laboratories Pvt. Ltd. | Silicon | 40nm | P(>99%) crystalline |
Sisco Research Laboratories Pvt. Ltd. | Silicon | 40nm | P(>99%) crystalline |
EPRUI Nanoparticles & Microspheres Co. Ltd | Silicon | 50-100nm | P(>99.9); flake |
EPRUI Nanoparticles & Microspheres Co. Ltd | Silicon | 50-100nm | P(>99.9); flake |
IoLiTec | Silicon | 60nm | P(>99%) |
SkySpring Nanomaterials, Inc. | Silicon | 60nm | P(99%), polycrystalline |
SkySpring Nanomaterials, Inc. | Silicon | 60nm | P(99%), polycrystalline |
MTI Corporation | Silicon | <100nm | Crystalline, P(>98) |
Meliorum Technologies Inc. | Silicon | <5nm | Monodisperse, P(99.99) |
Meliorum Technologies Inc. | Silicon | <5nm | Suspended in water, monodisperse, P(99.99) |
Creative Diagnostics | Silver | Silver nanoparticles are ideal for development of peptide and protein silver conjugates for use in applications such as blotting, lateral flow assays, LSPR assays, SERS, light microscopy, dark field and transmission electron microscopy (TEM). | |
Creative Diagnostics | Silver | Silver nanoparticles are ideal for development of peptide and protein silver conjugates for use in applications such as blotting, lateral flow assays, LSPR assays, SERS, light microscopy, dark field and transmission electron microscopy (TEM). | |
Creative Diagnostics | Silver | Silver nanoparticles are ideal for development of peptide and protein silver conjugates for use in applications such as blotting, lateral flow assays, LSPR assays, SERS, light microscopy, dark field and transmission electron microscopy (TEM). | |
Creative Diagnostics | Silver | Silver nanoparticles are ideal for development of peptide and protein silver conjugates for use in applications such as blotting, lateral flow assays, LSPR assays, SERS, light microscopy, dark field and transmission electron microscopy (TEM). | |
Creative Diagnostics | Silver | Silver nanoparticles are ideal for development of peptide and protein silver conjugates for use in applications such as blotting, lateral flow assays, LSPR assays, SERS, light microscopy, dark field and transmission electron microscopy (TEM). | |
Creative Diagnostics | Silver | Silver nanoparticles are ideal for development of peptide and protein silver conjugates for use in applications such as blotting, lateral flow assays, LSPR assays, SERS, light microscopy, dark field and transmission electron microscopy (TEM). | |
Creative Diagnostics | Silver | Silver nanoparticles are ideal for development of peptide and protein silver conjugates for use in applications such as blotting, lateral flow assays, LSPR assays, SERS, light microscopy, dark field and transmission electron microscopy (TEM). | |
Creative Diagnostics | Silver | Silver nanoparticles are ideal for development of peptide and protein silver conjugates for use in applications such as blotting, lateral flow assays, LSPR assays, SERS, light microscopy, dark field and transmission electron microscopy (TEM). | |
Creative Diagnostics | Silver | Silver nanoparticles are ideal for development of peptide and protein silver conjugates for use in applications such as blotting, lateral flow assays, LSPR assays, SERS, light microscopy, dark field and transmission electron microscopy (TEM). | |
Creative Diagnostics | Silver | Silver nanoparticles are ideal for development of peptide and protein silver conjugates for use in applications such as blotting, lateral flow assays, LSPR assays, SERS, light microscopy, dark field and transmission electron microscopy (TEM). | |
Creative Diagnostics | Silver | Silver nanoparticles are ideal for development of peptide and protein silver conjugates for use in applications such as blotting, lateral flow assays, LSPR assays, SERS, light microscopy, dark field and transmission electron microscopy (TEM). | |
Creative Diagnostics | Silver | Silver nanoparticles are ideal for development of peptide and protein silver conjugates for use in applications such as blotting, lateral flow assays, LSPR assays, SERS, light microscopy, dark field and transmission electron microscopy (TEM). | |
Creative Diagnostics | Silver | Silver nanoparticles are ideal for development of peptide and protein silver conjugates for use in applications such as blotting, lateral flow assays, LSPR assays, SERS, light microscopy, dark field and transmission electron microscopy (TEM). | |
Creative Diagnostics | Silver | Silver nanoparticles are ideal for development of peptide and protein silver conjugates for use in applications such as blotting, lateral flow assays, LSPR assays, SERS, light microscopy, dark field and transmission electron microscopy (TEM). | |
Creative Diagnostics | Silver | Silver nanoparticles are ideal for development of peptide and protein silver conjugates for use in applications such as blotting, lateral flow assays, LSPR assays, SERS, light microscopy, dark field and transmission electron microscopy (TEM). | |
Creative Diagnostics | Silver | Silver nanoparticles are ideal for development of peptide and protein silver conjugates for use in applications such as blotting, lateral flow assays, LSPR assays, SERS, light microscopy, dark field and transmission electron microscopy (TEM). | |
Creative Diagnostics | Silver | Ideal for antibacterial agents, metal-enhanced fluorescence (MEF), SERS, sensor development and drug delivery. | |
Creative Diagnostics | Silver | Ideal for antibacterial agents, metal-enhanced fluorescence (MEF), SERS, sensor development and drug delivery. | |
Creative Diagnostics | Silver | Ideal for antibacterial agents, metal-enhanced fluorescence (MEF), SERS, sensor development and drug delivery. | |
Creative Diagnostics | Silver | Ideal for antibacterial agents, metal-enhanced fluorescence (MEF), SERS, sensor development and drug delivery. | |
Creative Diagnostics | Silver | Ideal for antibacterial agents, metal-enhanced fluorescence (MEF), SERS, sensor development and drug delivery. | |
Creative Diagnostics | Silver | Ideal for antibacterial agents, metal-enhanced fluorescence (MEF), SERS, sensor development and drug delivery. | |
Creative Diagnostics | Silver | As negative control to other functionalized silver nanoparticles, e.g. carboxyl, amine and biotin. | |
Creative Diagnostics | Silver | As negative control to other functionalized silver nanoparticles, e.g. carboxyl, amine and biotin. | |
Creative Diagnostics | Silver | As negative control to other functionalized silver nanoparticles, e.g. carboxyl, amine and biotin. | |
Creative Diagnostics | Silver | As negative control to other functionalized silver nanoparticles, e.g. carboxyl, amine and biotin. | |
Creative Diagnostics | Silver | As negative control to other functionalized silver nanoparticles, e.g. carboxyl, amine and biotin. | |
Creative Diagnostics | Silver | As negative control to other functionalized silver nanoparticles, e.g. carboxyl, amine and biotin. | |
Creative Diagnostics | Silver | As negative control to other functionalized silver nanoparticles, e.g. carboxyl, amine and biotin. | |
Creative Diagnostics | Silver | As negative control to other functionalized silver nanoparticles, e.g. carboxyl, amine and biotin. | |
Creative Diagnostics | Silver | As negative control to other functionalized silver nanoparticles, e.g. carboxyl, amine and biotin. | |
Creative Diagnostics | Silver | As negative control to other functionalized silver nanoparticles, e.g. carboxyl, amine and biotin. | |
Creative Diagnostics | Silver | As negative control to other functionalized silver nanoparticles, e.g. carboxyl, amine and biotin. | |
Creative Diagnostics | Silver | As negative control to other functionalized silver nanoparticles, e.g. carboxyl, amine and biotin. | |
Creative Diagnostics | Silver | As negative control to other functionalized silver nanoparticles, e.g. carboxyl, amine and biotin. | |
Creative Diagnostics | Silver | As negative control to other functionalized silver nanoparticles, e.g. carboxyl, amine and biotin. | |
Creative Diagnostics | Silver | As negative control to other functionalized silver nanoparticles, e.g. carboxyl, amine and biotin. | |
Creative Diagnostics | Silver | As negative control to other functionalized silver nanoparticles, e.g. carboxyl, amine and biotin. | |
Creative Diagnostics | Silver | Ideal for Medium Covalent conjugation of antibodies, proteins and other ligands using standard EDC/NHS coupling chemistry. | |
Creative Diagnostics | Silver | Ideal for Medium Covalent conjugation of antibodies, proteins and other ligands using standard EDC/NHS coupling chemistry. | |
Creative Diagnostics | Silver | Ideal for Medium Covalent conjugation of antibodies, proteins and other ligands using standard EDC/NHS coupling chemistry. | |
Creative Diagnostics | Silver | Ideal for Medium Covalent conjugation of antibodies, proteins and other ligands using standard EDC/NHS coupling chemistry. | |
Creative Diagnostics | Silver | Ideal for Medium Covalent conjugation of antibodies, proteins and other ligands using standard EDC/NHS coupling chemistry. | |
Creative Diagnostics | Silver | Ideal for Medium Covalent conjugation of antibodies, proteins and other ligands using standard EDC/NHS coupling chemistry. | |
Creative Diagnostics | Silver | Ideal for Medium Covalent conjugation of antibodies, proteins and other ligands using standard EDC/NHS coupling chemistry. | |
Creative Diagnostics | Silver | Ideal for Medium Covalent conjugation of antibodies, proteins and other ligands using standard EDC/NHS coupling chemistry. | |
Creative Diagnostics | Silver | Ideal for Medium Covalent conjugation of antibodies, proteins and other ligands using standard EDC/NHS coupling chemistry. | |
Creative Diagnostics | Silver | Ideal for Medium Covalent conjugation of antibodies, proteins and other ligands using standard EDC/NHS coupling chemistry. | |
Creative Diagnostics | Silver | Ideal for Medium Covalent conjugation of antibodies, proteins and other ligands using standard EDC/NHS coupling chemistry. | |
Creative Diagnostics | Silver | Ideal for Medium Covalent conjugation of antibodies, proteins and other ligands using standard EDC/NHS coupling chemistry. | |
Creative Diagnostics | Silver | Ideal for Medium Covalent conjugation of antibodies, proteins and other ligands using standard EDC/NHS coupling chemistry. | |
Creative Diagnostics | Silver | Ideal for Medium Covalent conjugation of antibodies, proteins and other ligands using standard EDC/NHS coupling chemistry. | |
Creative Diagnostics | Silver | Ideal for Medium Covalent conjugation of antibodies, proteins and other ligands using standard EDC/NHS coupling chemistry. | |
Creative Diagnostics | Silver | Ideal for Medium Covalent conjugation of antibodies, proteins and other ligands using standard EDC/NHS coupling chemistry. | |
Creative Diagnostics | Silver | Ideal for binding and detection of streptavidin in applications such as blotting, lateral flow assays, LSPR assays, light microscopy, and transmission electron microscopy (TEM) among others. | |
Creative Diagnostics | Silver | Ideal for binding and detection of streptavidin in applications such as blotting, lateral flow assays, LSPR assays, light microscopy, and transmission electron microscopy (TEM) among others. | |
Creative Diagnostics | Silver | Ideal for binding and detection of streptavidin in applications such as blotting, lateral flow assays, LSPR assays, light microscopy, and transmission electron microscopy (TEM) among others. | |
Creative Diagnostics | Silver | Ideal for binding and detection of streptavidin in applications such as blotting, lateral flow assays, LSPR assays, light microscopy, and transmission electron microscopy (TEM) among others. | |
Creative Diagnostics | Silver | Ideal for binding and detection of streptavidin in applications such as blotting, lateral flow assays, LSPR assays, light microscopy, and transmission electron microscopy (TEM) among others. | |
Creative Diagnostics | Silver | Ideal for binding and detection of streptavidin in applications such as blotting, lateral flow assays, LSPR assays, light microscopy, and transmission electron microscopy (TEM) among others. | |
Creative Diagnostics | Silver | Ideal for binding and detection of streptavidin in applications such as blotting, lateral flow assays, LSPR assays, light microscopy, and transmission electron microscopy (TEM) among others. | |
Creative Diagnostics | Silver | Ideal for binding and detection of streptavidin in applications such as blotting, lateral flow assays, LSPR assays, light microscopy, and transmission electron microscopy (TEM) among others. | |
Creative Diagnostics | Silver | Protein A silver nanoparticle conjugates are suitable for use in immunoblotting, light microscopy, and electron microscopy applications. Working dilution 1:10-1:100. | |
Creative Diagnostics | Silver | Protein A silver nanoparticle conjugates are suitable for use in immunoblotting, light microscopy, and electron microscopy applications. Working dilution 1:10-1:100. | |
Creative Diagnostics | Silver | Protein A silver nanoparticle conjugates are suitable for use in immunoblotting, light microscopy, and electron microscopy applications. Working dilution 1:10-1:100. | |
Creative Diagnostics | Silver | Protein A silver nanoparticle conjugates are suitable for use in immunoblotting, light microscopy, and electron microscopy applications. Working dilution 1:10-1:100. | |
Creative Diagnostics | Silver | Protein G silver nanoparticle conjugates are suitable for use in immunoblotting, light microscopy, and electron microscopy applications. Working dilution 1:10-1:100. | |
Creative Diagnostics | Silver | Protein G silver nanoparticle conjugates are suitable for use in immunoblotting, light microscopy, and electron microscopy applications. Working dilution 1:10-1:100. | |
Creative Diagnostics | Silver | Protein G silver nanoparticle conjugates are suitable for use in immunoblotting, light microscopy, and electron microscopy applications. Working dilution 1:10-1:100. | |
Creative Diagnostics | Silver | Protein G silver nanoparticle conjugates are suitable for use in immunoblotting, light microscopy, and electron microscopy applications. Working dilution 1:10-1:100. | |
Creative Diagnostics | Silver | Streptavidin silver nanoparticle conjugates are suitable for use in immunoblotting, light microscopy, and electron microscopy applications. Working dilution 1:10-1:100. | |
Creative Diagnostics | Silver | Streptavidin silver nanoparticle conjugates are suitable for use in immunoblotting, light microscopy, and electron microscopy applications. Working dilution 1:10-1:100. | |
Creative Diagnostics | Silver | Streptavidin silver nanoparticle conjugates are suitable for use in immunoblotting, light microscopy, and electron microscopy applications. Working dilution 1:10-1:100. | |
Creative Diagnostics | Silver | Streptavidin silver nanoparticle conjugates are suitable for use in immunoblotting, light microscopy, and electron microscopy applications. Working dilution 1:10-1:100. | |
Creative Diagnostics | Silver | Silver conjugates are suitable for use in immunoblotting, light microscopy, and electron microscopy applications. Working dilution 1:25-1:100. | |
Creative Diagnostics | Silver | Silver conjugates are suitable for use in immunoblotting, light microscopy, and electron microscopy applications. Working dilution 1:25-1:100. | |
Creative Diagnostics | Silver | Silver conjugates are suitable for use in immunoblotting, light microscopy, and electron microscopy applications. Working dilution 1:25-1:100. | |
Creative Diagnostics | Silver | Silver conjugates are suitable for use in immunoblotting, light microscopy, and electron microscopy applications. Working dilution 1:25-1:100. | |
Creative Diagnostics | Silver | Silver conjugates are suitable for use in immunoblotting, light microscopy, and electron microscopy applications. Working dilution 1:25-1:100. | |
Creative Diagnostics | Silver | Silver conjugates are suitable for use in immunoblotting, light microscopy, and electron microscopy applications. Working dilution 1:25-1:100. | |
Creative Diagnostics | Silver | Silver conjugates are suitable for use in immunoblotting, light microscopy, and electron microscopy applications. Working dilution 1:25-1:100. | |
Creative Diagnostics | Silver | Silver conjugates are suitable for use in immunoblotting, light microscopy, and electron microscopy applications. Working dilution 1:25-1:100. | |
Creative Diagnostics | Silver | Silver conjugates are suitable for use in immunoblotting, light microscopy, and electron microscopy applications. Working dilution 1:25-1:100. | |
Creative Diagnostics | Silver | Silver conjugates are suitable for use in immunoblotting, light microscopy, and electron microscopy applications. Working dilution 1:25-1:100. | |
Creative Diagnostics | Silver | Silver conjugates are suitable for use in immunoblotting, light microscopy, and electron microscopy applications. Working dilution 1:25-1:100. | |
Creative Diagnostics | Silver | Silver conjugates are suitable for use in immunoblotting, light microscopy, and electron microscopy applications. Working dilution 1:25-1:100. | |
Creative Diagnostics | Silver | Silver conjugates are suitable for use in immunoblotting, light microscopy, and electron microscopy applications. Working dilution 1:25-1:100. | |
Creative Diagnostics | Silver | Silver conjugates are suitable for use in immunoblotting, light microscopy, and electron microscopy applications. Working dilution 1:25-1:100. | |
Creative Diagnostics | Silver | Silver conjugates are suitable for use in immunoblotting, light microscopy, and electron microscopy applications. Working dilution 1:25-1:100. | |
Creative Diagnostics | Silver | Silver conjugates are suitable for use in immunoblotting, light microscopy, and electron microscopy applications. Working dilution 1:25-1:100. | |
Creative Diagnostics | Silver | Ideal for development of peptide and protein silver conjugates for use in applications such as blotting, lateral flow assays, LSPR assays, SERS, light microscopy, dark field and transmission electron microscopy (TEM). | |
Creative Diagnostics | Silver | Ideal for development of peptide and protein silver conjugates for use in applications such as blotting, lateral flow assays, LSPR assays, SERS, light microscopy, dark field and transmission electron microscopy (TEM). | |
Creative Diagnostics | Silver | Ideal for development of peptide and protein silver conjugates for use in applications such as blotting, lateral flow assays, LSPR assays, SERS, light microscopy, dark field and transmission electron microscopy (TEM). | |
Creative Diagnostics | Silver | Ideal for development of peptide and protein silver conjugates for use in applications such as blotting, lateral flow assays, LSPR assays, SERS, light microscopy, dark field and transmission electron microscopy (TEM). | |
Creative Diagnostics | Silver | Ideal for development of peptide and protein silver conjugates for use in applications such as blotting, lateral flow assays, LSPR assays, SERS, light microscopy, dark field and transmission electron microscopy (TEM). | |
Creative Diagnostics | Silver | Ideal for development of peptide and protein silver conjugates for use in applications such as blotting, lateral flow assays, LSPR assays, SERS, light microscopy, dark field and transmission electron microscopy (TEM). | |
Creative Diagnostics | Silver | Ideal for development of peptide and protein silver conjugates for use in applications such as blotting, lateral flow assays, LSPR assays, SERS, light microscopy, dark field and transmission electron microscopy (TEM). | |
Creative Diagnostics | Silver | Ideal for development of peptide and protein silver conjugates for use in applications such as blotting, lateral flow assays, LSPR assays, SERS, light microscopy, dark field and transmission electron microscopy (TEM). | |
Creative Diagnostics | Silver | Ideal for development of peptide and protein silver conjugates for use in applications such as blotting, lateral flow assays, LSPR assays, SERS, light microscopy, dark field and transmission electron microscopy (TEM). | |
Creative Diagnostics | Silver | Ideal for development of peptide and protein silver conjugates for use in applications such as blotting, lateral flow assays, LSPR assays, SERS, light microscopy, dark field and transmission electron microscopy (TEM). | |
Creative Diagnostics | Silver | Ideal for development of peptide and protein silver conjugates for use in applications such as blotting, lateral flow assays, LSPR assays, SERS, light microscopy, dark field and transmission electron microscopy (TEM). | |
Creative Diagnostics | Silver | Ideal for development of peptide and protein silver conjugates for use in applications such as blotting, lateral flow assays, LSPR assays, SERS, light microscopy, dark field and transmission electron microscopy (TEM). | |
Creative Diagnostics | Silver | Ideal for development of peptide and protein silver conjugates for use in applications such as blotting, lateral flow assays, LSPR assays, SERS, light microscopy, dark field and transmission electron microscopy (TEM). | |
Creative Diagnostics | Silver | Ideal for development of peptide and protein silver conjugates for use in applications such as blotting, lateral flow assays, LSPR assays, SERS, light microscopy, dark field and transmission electron microscopy (TEM). | |
Creative Diagnostics | Silver | Ideal for development of peptide and protein silver conjugates for use in applications such as blotting, lateral flow assays, LSPR assays, SERS, light microscopy, dark field and transmission electron microscopy (TEM). | |
Creative Diagnostics | Silver | Ideal for development of peptide and protein silver conjugates for use in applications such as blotting, lateral flow assays, LSPR assays, SERS, light microscopy, dark field and transmission electron microscopy (TEM). | |
Creative Diagnostics | Silver | Ideal for development of peptide and protein silver conjugates for use in applications such as blotting, lateral flow assays, LSPR assays, SERS, light microscopy, dark field and transmission electron microscopy (TEM). | |
Creative Diagnostics | Silver | Ideal for development of peptide and protein silver conjugates for use in applications such as blotting, lateral flow assays, LSPR assays, SERS, light microscopy, dark field and transmission electron microscopy (TEM). | |
Creative Diagnostics | Silver | Ideal for development of peptide and protein silver conjugates for use in applications such as blotting, lateral flow assays, LSPR assays, SERS, light microscopy, dark field and transmission electron microscopy (TEM). | |
Creative Diagnostics | Silver | Ideal for development of peptide and protein silver conjugates for use in applications such as blotting, lateral flow assays, LSPR assays, SERS, light microscopy, dark field and transmission electron microscopy (TEM). | |
Creative Diagnostics | Silver | Ideal for metal-enhanced fluorescence (MEF), fluorescent imaging, SERS, sensor development and drug delivery. | |
Creative Diagnostics | Silver | Ideal for metal-enhanced fluorescence (MEF), fluorescent imaging, SERS, sensor development and drug delivery. | |
Creative Diagnostics | Silver | Ideal for metal-enhanced fluorescence (MEF), fluorescent imaging, SERS, sensor development and drug delivery. | |
Creative Diagnostics | Silver | Ideal for metal-enhanced fluorescence (MEF), fluorescent imaging, SERS, sensor development and drug delivery. | |
Creative Diagnostics | Silver | Ideal for metal-enhanced fluorescence (MEF), fluorescent imaging, SERS, sensor development and drug delivery. | |
Creative Diagnostics | Silver | Ideal for metal-enhanced fluorescence (MEF), fluorescent imaging, SERS, sensor development and drug delivery. | |
Creative Diagnostics | Silver | Ideal for metal-enhanced fluorescence (MEF), fluorescent imaging, SERS, sensor development and drug delivery. | |
Creative Diagnostics | Silver | Ideal for metal-enhanced fluorescence (MEF), fluorescent imaging, SERS, sensor development and drug delivery. | |
EMEXON INTERNATIONAL | Silver | ||
Metalchemy Limited | Silver | ||
nanoComposix, Inc. | Silver | 10-127nm | Monodisperse |
QuantumSphere, Inc. | Silver | 10-60nm | |
Inframat Advanced Materials LLC | Silver | 100-127nm | P(99.95) |
Inframat Advanced Materials LLC | Silver | 100-127nm | P(99.95) |
SkySpring Nanomaterials, Inc. | Silver | 100nm | P(99.95%) spherical |
SkySpring Nanomaterials, Inc. | Silver | 100nm | P(99.95%) spherical |
Nanocs | Silver | 10nm | In aqueous, 0.01% Ag |
Nanocs | Silver | 10nm | Dextran coated, 0.01% Ag |
Inframat Advanced Materials LLC | Silver | 127nm | P(99.95) |
Nano Technology Inc. | Silver | 127nm | Spherical |
IoLiTec | Silver | 150nm | P(99.95%) |
NTbase | Silver | 150nm | P(99.99) spherical |
HIQ-NANO srl | Silver | 20 nm | Provided in water without any other surfactancts |
SkySpring Nanomaterials, Inc. | Silver | 20-30nm | P(99.95%) spherical, partially passivated |
SkySpring Nanomaterials, Inc. | Silver | 20-30nm | P(99.95%) spherical, PVP coated |
SkySpring Nanomaterials, Inc. | Silver | 20-30nm | P(99.95%) spherical, partially passivated |
SkySpring Nanomaterials, Inc. | Silver | 20-30nm | P(99.95%) spherical, PVP coated |
Sukgyung AT Co., Ltd. | Silver | 20-30nm | Solvent: water |
Sukgyung AT Co., Ltd. | Silver | 20-30nm | Solvent: high purity ethanol |
Sukgyung AT Co., Ltd. | Silver | 20-30nm | Solvent: water |
Sukgyung AT Co., Ltd. | Silver | 20-30nm | Solvent: high purity ethanol |
EPRUI Nanoparticles & Microspheres Co. Ltd | Silver | 20-80nm | P(99%); spherical |
EPRUI Nanoparticles & Microspheres Co. Ltd | Silver | 20-80nm | P(99%); spherical |
Cline Scientific | Silver | 20nm | Citrate stabilized in Milli-Q, spherical |
Nanocs | Silver | 20nm | In aqueous, 0.01% Ag |
Nanocs | Silver | 20nm | Dextran coated, 0.01% Ag |
PlasmaChem GmbH | Silver | 20nm | colloidal suspension 0.5 mg/ml |
Nanogap S.A. | Silver | 25-45nm | P(85%) |
Nanogap S.A. | Silver | 25-45nm | P(85%) |
NovaCentrix | Silver | 25nm | |
Nanogap S.A. | Silver | 28-57nm | P(85%) |
Nanogap S.A. | Silver | 28-57nm | P(85%) |
Nanogap S.A. | Silver | 3.5-7.5nm | P(85%) |
Nanogap S.A. | Silver | 3.5-7.5nm | P(85%) |
BRinova Bioqu�mica LDA | Silver | 30 - 120 nm (Size Customization possible) | BioQTN Silver Ag is a silver nanoparticles dispersion. Particles sizes 30 - 120 nm (Size Customization possible) Molecular weight: 107.87 g/mol Color: light yellow to brown Physical state: Liquid Total silver concentration: 0.2-2 mg/ml Density at 20 �C: 0.991 � 0.04 g/ml Morphology: spherical Zeta potential: 33.8�1.9 mV Particle surface: sodium citrate and polysaccharide Solvent: water Specific surface area (BET): 2.2� 0.2 m�/g |
Auto Fibre Craft | Silver | 30-54nm | Dry, uncoated, pure powder silver in elemntal form |
ABC Nanotech | Silver | 30nm | dispersed in water, toulene or xylene |
Cline Scientific | Silver | 30nm | Citrate stabilized in Milli-Q, spherical |
Nanocs | Silver | 30nm | In aqueous, 0.01% Ag |
Nanocs | Silver | 30nm | Dextran coated, 0.01% Ag |
IoLiTec | Silver | 35nm | P(99.5%) |
Particular GmbH | Silver | 40-70nm | Pure nanoparticle dispersions from laser ablation |
Particular GmbH | Silver | 40-70nm | Pure nanoparticle dispersions from laser ablation |
Nanocs | Silver | 40nm | In aqueous, 0.01% Ag |
Nanocs | Silver | 40nm | Dextran coated, 0.01% Ag |
Applied Nanotech, Inc. | Silver | 45nm | P(>99%) |
Applied Nanotech, Inc. | Silver | 45nm | P(>99%) |
Nanogap S.A. | Silver | 5-10nm | P(85%) |
Nanogap S.A. | Silver | 5-10nm | P(85%) |
Particular GmbH | Silver | 5-10nm | Pure nanoparticle dispersions from laser ablation |
Particular GmbH | Silver | 5-10nm | Pure nanoparticle dispersions from laser ablation |
SkySpring Nanomaterials, Inc. | Silver | 50-60nm | P(99.95%) spherical |
SkySpring Nanomaterials, Inc. | Silver | 50-60nm | P(99.95%) spherical |
Nanocs | Silver | 50nm | In aqueous, 0.01% Ag |
Nanocs | Silver | 50nm | Dextran coated, 0.01% Ag |
MTI Corporation | Silver | 55nm | |
Ocean NanoTech | Silver | 6nm | Surface ligand dodecanethiol |
Ocean NanoTech | Silver | 6nm | In water/surface ligand COOH |
NTbase | Silver | 80nm | P(99.99) spherical |
Sukgyung AT Co., Ltd. | Silver | <10nm | Solvent: water |
Sukgyung AT Co., Ltd. | Silver | <10nm | Solvent: water |
MKnano | Silver | <90nm | P(99.9%) |
MKnano | Silver | <90nm | P(99.9%) |
Sisco Research Laboratories Pvt. Ltd. | Silver | <90nm | P(>99.9%) |
Sisco Research Laboratories Pvt. Ltd. | Silver | <90nm | P(>99.9%) |
RAS AG | silver - Ag | ||
RAS AG | silver - Ag | ||
Platonic Nanotech Pvt. Ltd. | Single element | 30-50 nm | |
Platonic Nanotech Pvt. Ltd. | Single element | 30-50 nm | |
Platonic Nanotech Pvt. Ltd. | Single element | 30-50 nm | |
Platonic Nanotech Pvt. Ltd. | Single element | 30-50 nm | |
Platonic Nanotech Pvt. Ltd. | Single element | 30-50 nm | |
Platonic Nanotech Pvt. Ltd. | Single element | 30-50 nm | |
Platonic Nanotech Pvt. Ltd. | Single element | 30-50 nm | |
Platonic Nanotech Pvt. Ltd. | Single element | 30-50 nm | |
MKnano | Sulfur | <60nm | P(99.9%) |
MKnano | Sulfur | <60nm | P(99.9%) |
IoLiTec | Tin | 100nm | P(>99%) |
Nano Technology Inc. | Tin | 127nm | Spherical |
EPRUI Nanoparticles & Microspheres Co. Ltd | Tin | 60nm | P(99.5%); spherical |
EPRUI Nanoparticles & Microspheres Co. Ltd | Tin | 60nm | P(99.5%); spherical |
NTbase | Tin | 80nm | P(99.9) spherical |
SkySpring Nanomaterials, Inc. | Tin | <100nm | P(99.9%) |
SkySpring Nanomaterials, Inc. | Tin | <100nm | P(99.9%) |
TitanPE Technologies, Inc. | Titanium | 10nm | Anatase |
TitanPE Technologies, Inc. | Titanium | 20nm | Anatase |
IoLiTec | Titanium | 35nm | P(99%) |
SkySpring Nanomaterials, Inc. | Titanium | 40-60nm | P(99.9%) |
SkySpring Nanomaterials, Inc. | Titanium | 40-60nm | P(99.9%) |
IoLiTec | Titanium | 60-80nm | P(99.9%) |
SkySpring Nanomaterials, Inc. | Titanium | 60-80nm | P(99.9%) |
SkySpring Nanomaterials, Inc. | Titanium | 60-80nm | P(99.9%) |
EPRUI Nanoparticles & Microspheres Co. Ltd | Titanium | 60nm | P(99.9%); spherical |
EPRUI Nanoparticles & Microspheres Co. Ltd | Titanium | 60nm | P(99.9%); spherical |
TitanPE Technologies, Inc. | Titanium | <10nm | Anatase, nitrogen doped |
SK STEEL & POWDER SUPPLY UG | Titanium (Ti) | 80-110 nm | Appearance and color: dark gray to black suspension or paste. Average particle size is 80-110 nanometers. The particles are spherical and form agglomerates. Bulk density of dry powder is 2.85 g/cm3. BET surface area - 13.8 m2/g.� The self-ignition temperature of the suspension vapor in air is 338 �C. Boiling point is 69 �C. Flash temperature -22 �C. Hexane is not soluble in water. On removing hexane from the suspension (evacuation), titanium powder may spontaneously ignite in air. DANGER |
IoLiTec | Tungsten | 30-120nm | P(99.5%) |
EPRUI Nanoparticles & Microspheres Co. Ltd | Tungsten | 30-80nm | P(>99.6%); spherical |
EPRUI Nanoparticles & Microspheres Co. Ltd | Tungsten | 30-80nm | P(>99.6%); spherical |
SkySpring Nanomaterials, Inc. | Tungsten | 40-60nm | P(99.9%) |
SkySpring Nanomaterials, Inc. | Tungsten | 40-60nm | P(99.9%) |
IoLiTec | Tungsten | 50nm | P(99%) |
SkySpring Nanomaterials, Inc. | Tungsten | 80-100nm | P(99.9%) |
SkySpring Nanomaterials, Inc. | Tungsten | 80-100nm | P(99.9%) |
NTbase | Zinc | 100nm | P(99.99) spherical |
Inframat Advanced Materials LLC | Zinc | 120nm | P(99.8) |
IoLiTec | Zinc | 130nm | P(99.5%) |
BT Corp | Zinc | 30nm | P(>98%) |
BT Corp | Zinc | 30nm | P(>98%) |
IoLiTec | Zinc | 35nm | P(99.9%) |
SkySpring Nanomaterials, Inc. | Zinc | 40-60nm | P(99.9%) |
SkySpring Nanomaterials, Inc. | Zinc | 40-60nm | P(99.9%) |
Applied Nanotech, Inc. | Zinc | 45nm | P(>99%) |
Applied Nanotech, Inc. | Zinc | 45nm | P(>99%) |
Sisco Research Laboratories Pvt. Ltd. | Zinc | 50nm | P(>99.9%) |
Sisco Research Laboratories Pvt. Ltd. | Zinc | 50nm | P(>99.9%) |
EPRUI Nanoparticles & Microspheres Co. Ltd | Zinc | 60-80nm | P(99.99%); spherical |
EPRUI Nanoparticles & Microspheres Co. Ltd | Zinc | 60-80nm | P(99.99%); spherical |
SkySpring Nanomaterials, Inc. | Zinc | 80-100nm | P(99.9%) |
Zinc Oxide Australia Pty Ltd | Zinc oxide | 30 - 50nm | SSA 20-40 m2/g |