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Nanotechnology Spotlight

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Showing Spotlights 33 - 40 of 1885 in category (newest first):

 

Whispering gallery modes to control artificial atoms for quantum computing

entanglementQuantum computation using artificial-atoms can be sensitively controlled by external electromagnetic fields. These fields and the self-fields attributable to the coupled artificial-atoms influence the amount of quantum correlation in the system. However, control elements that can operate without complete destruction of the entanglement of the quantum-bits are difficult to engineer. In new work, scientists have investigate the possibility of using closely spaced-linear arrays of metallic-elliptical discs as whispering gallery waveguides to control artificial atoms.

Posted: May 10th, 2016

Nanowrinkles are key to stretchable superhydrophobic surfaces

superhydrophobicsSuperhydrophobic surfaces that can also withstand mechanical deformation such as bending and stretching are important for applications such as robust self-cleaning, water-resistant electronics, and flexible microfluidics. Researchers have now reported the design of 3D hierarchical wrinkle substrates that can maintain their superhydrophobicity even after being repeatedly stretched. This is made possible by using monolithic, multi-scale PDMS nanowrinkles that can exhibit stretchable superhydrophobicity using high fidelity pattern transfer.

Posted: May 5th, 2016

Novel nanostructure improves photothermal therapy of deep tumors

hollow_sphereMoS2 nanosheets have shown great prospect as a near-infrared light (NIR) absorbing agent for PTT applications due to their unique photoelectric property, low cost and good biocompatibility. However, the absorbance of nanosheets in the NIR region is not specific and strong, and the photothermal conversion efficiency of MoS2 based materials need to be enhanced. In new work, researchers have proposed a novel MoS2 nanostructure, i.e. layered MoS2 hollow spheres (LMHSs), for improving their near-infrared absorption and photothermal conversion efficiency.

Posted: Apr 28th, 2016

Dendrite-free lithium metal batteries through evenly distributed lithium ions

lithium_ionsToday, the best performing battery in terms of specific energy and specific power is the secondary lithium-metal (Li-metal). However, uncontrolled dendrite growth during Li depositing/stripping in rechargeable Li metal based batteries has prevented their practical applications over the past 40 years. To address this issue, researchers have now proposed a novel method of modulating the lithium ion adsorption to suppress lithium dendrite growth by employing glass fiber as solid electrolytes with plenty of polar functional groups as the interlayer between Li metal anode and routine polymer separator.

Posted: Apr 19th, 2016

New phenomena in the ultrasonic scattering in nanofluids

nanofluidicsUltrasonics is a promising, non-invasive characterization technique for fluids. The scattering of ultrasound through colloidal suspensions allows determination of accurate particle size distribution, density, and concentration. Controlling these properties enables accurate characterization of nanomedicine drugs and understanding of nanoparticles present in biological systems. Ultrasound is particularly helpful in analyzing optically opaque samples, which have to be heavily diluted in order to be analyzed with optical methods. New work demonstrates for the first time new phenomena in the ultrasonic scattering in nanofluids.

Posted: Apr 15th, 2016

Phosphorene as a promising anchoring material for lithium-sulfur batteries

phosphoreneLithium-sulfur (Li-S) batteries, which employ sulfur as cathode and metallic lithium as anode materials, have been extensively studied as promising alternatives to the widely used lithium-ion batteries because - theoretically - they can render 3-6 times higher energy density. In practice, though, it has proven challenging to approach that theoretical value. Specifically, the rapid capacity fading, low Coulombic efficiency, and irreversible loss of active materials have impeded large-scale commercial use of Li-S batteries. Researchers now have shown that trapping lithium polysulfide species on (nanoscale) host materials is an effective way to overcome these challenges.

Posted: Apr 14th, 2016

Novel 2D spacer materials for surface plasmon coupled emission sensing

spacer_layerNanomaterials like graphene and fullerenes provide an excellent platform to enhance weak signals from biomarkers. While graphene and fullerenes perform very well for detecting isolated biomarkers, their ability to amplify emission of biomarkers in a real physiological milieu is limited due to their strong interactions with other biomolecules such as proteins and lipids. A team of researchers now have developed new sensing platforms that use two-dimensional materials beyond graphene.

Posted: Apr 11th, 2016

An analogue smart skin that is self-powered

smart_skinIn order to make robots and robotic technology more human-like and more human-friendly, smart skin technology is a critical element that helps robots sense the world. These electronic or smart skins could help machines to accurately perceive the environment and better assist human owners. By applying the triboelectric effect and planar electrostatic induction, researchers for the first time have created a self-powered analogue smart skin.

Posted: Apr 8th, 2016