Dolomite, a company specializing in microfluidic devices for the analysis and control of small-scale fluids, has expanded its portfolio of system solutions with the introduction of an advanced syringe-based nanoparticle system.
A research team led by Deyu Li, who serves as an associate professor of mechanical engineering at Vanderbilt University, has developed a novel method to modify and improve the thermal conductivity of boron nanoribbons, paving the way for controlling thermal impacts in lasers, computers, smart phones and other powered devices.
Vorbeck Materials has declared that it has wrapped up a completely subscribed series 3 funding with a total amount of $10 million. The funding was completed on 9 December 2011. Fairbridge Venture Partners and Black Powder are the companies which led the funding that also comprised of 15 more investors.
Scientists at the Lawrence Berkeley National Laboratory (Berkeley Lab) of the U.S. Department of Energy have devised a potential low-cost method for synthesizing stretchable and flexible backplanes at large-scale utilizing semiconductor-enhanced carbon nanotube solutions, which provide thin-film transistor networks with superior electrical properties and higher charge carrier mobility when compared to that of organic devices, paving the way to develop future plastic electronic devices.
A research team led by Stephan Winnerl at Helmholtz-Zentrum Dresden-Rossendorf (HZDR) in partnership with researchers at the Georgia Institute of Technology, the Grenoble High Magnetic Field Laboratory and the Technische Universitat (TU) Berlin has for the first time discovered the lifespan of electrons at low energy levels in graphene, paving the way to develop rapid optoelectronic and electronic components.
A research team led by Dr. Woo Lee, who serves at Stevens Institute of Technology’s Schaefer School of Engineering and Science as the Department of Chemical Engineering and Materials Science’s George Meade Bond Professor, has exhibited its novel graphene-based method for inkjet printing of energy storage devices, paving the way for the advancement of printed electronics.
A research team at the Lawrence Berkeley National Laboratory (Berkeley Lab) of the U.S. Department of Energy has developed a novel method for removing nanocrytals from tether-like molecules called ligands that prevent integration of nanocrystals with devices, paving the way for designing nanocrystal-based technologies for LEDs, solar fuels, smart windows, photovoltaics and energy storage.
Researchers at the Rice University and Schlumberger’s subsidiary M-I SWACO, a drilling fluid supplier based in Texas, have synthesized functionalized graphene oxide to eliminate the blockage of oil-generating holes in newly drilled oil wells.
Researchers at the Carnegie Mellon University, Rongchao Jin and Roberto R. Gil have used a nuclear magnetic resonance (NMR) spectroscopy to study the structure of gold nanoparticles, paving the way for improving the synthesis and application of materials in drug development.
The Catalan Institute of Nanotechnology scientists have developed a novel method based on the traditional corrosion techniques for the production of highly intricate hollow nanoparticles or cage-like nanostructures, which can be used for industrial processing and medical applications.
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