Accium offers laboratory services based on its Accelerator Mass Spectrometry platform used to detect 14C/12C ratios which provided 1,000 times more sensitivity than the most sensitive method available today such as LC/MS. It is now possible to trace biomolecule delivery in healthy subjects with low attomole sensitivity.
Acreo provides contract R&D services in electronics, optics and communication technologies. The companies competencies include advance nanoscale fabrication technologies such as nanoimprint lithography.
Develops in-vitro models of cell and tissue systems. They simulate the transport of substances and formulations across biological barriers, from which conclusions regarding permeability and absorption can be drawn.
Aculon specializes in inventing and commercializing unique molecular-scale surface and interfacial coatings leveraging nanotechnology discoveries made at Princeton University. From electronic device and component manufacturing to industrial metal finishing to consumer appliances and electronics, Aculon adds value through nano-scale surface modification that delivers superior performance, process simplification and favorable economics.
The company has developed a proprietary formulation technology called HDDS that converts drugs that do not dissolve well in water, or hydrophobic drugs, into microparticles or nanoparticles of the drug embedded in small microspheres, such that the drug can more rapidly dissolve in water.
Admatechs, established jointly by Toyota Motor Corporation and Shin-Etsu Chemical Corporation Limited, develops advanced materials. The company's R&D Division is developing several technologies based on VMC combustion technology, for example, coarse particle removal from spherical metal oxide particles, particle surface treatment, and high dispersion of particles.
Adnano Technologies is a supplier of various forms of graphene and multiwalled carbon nanotubes. They also provide analytical services like FESEM, TEM, AFM, FTIR, XRD, XPS, Contact Angle, BET, Zeta sizer and Master sizer.
Advanced Diamond Technologies (ADT) is a leader in developing and applying diamond for industrial, electronic, and medical applications. For the microscopy market, ADT makes NaDiaProbes™, AFM probes made entirely out of diamond, which last 100 times longer than SiN probes. NaDiaProbes are available in conductive diamond, dynamic and contact modes. ADT also sells UNCD Wafers, available as diamond-on-Silicon (DoSi) and diamond-on-oxide (DOI) wafers. UNCD Wafers are for MEMS development, nano imprint lithography applications and other wafers scales applications where the superior properties of diamond may be leveraged. ADT is a World Economic Forum 2007 Technology Pioneer, chosen for a 2007 Frost & Sullivan award and a winner of a 2008 R&D 100 Award.
Advanced Electron Beams (AEB) enables the green factory of the future by making sustainable manufacturing possible and profitable. AEB's compact electron beam emitters replace thermal and chemical processes for cleaner, more efficient, lower-cost manufacturing. For industries such as pharmaceutical, medical devices, food and beverage, printing, and plastics, AEB emitters sterilize products and packaging, improve the performance of plastics and other materials, cure inks and coatings and eliminate pollution.
Advanced Energy develops innovative power and control technologies that enable high-growth, plasma thin-film manufacturing processes worldwide, including semiconductors, flat panel displays, data storage products, solar cells, architectural glass, and other advanced product applications.
The activity of the company involves specifically tailoring adaptable magnetic sensors to meet a range of bespoke and industrial requirements, offering a choice of previously unmatched characterestic combinations that are essential to many industries and applications. The company's sensors rely, for their operation, on the concept of "Band Gap Engineering" as opposed to traditional semiconductor Hall effect sensors which rely on the "bulk" properties of the semiconductors.
Digital microfluidics is a lab-on-a-chip approach based on direct, programmable micromanipulation of nanoliter volume droplets using electrical fields. Digital microfluidics enables complex, multi-step liquid handling protocols to be flexibly, scalably, and cost effectively implemented.