A research team comprising Leonhard Prechtel and Leonhard Prechtel from the Technische Universitaet Muenchen’s Walter Schottky Institut has devised a method to improve the time resolution down to the picosecond range for measuring photocurrent in graphene, which in turn helped in detecting pulses in a few picoseconds.
A Rice University study on fluorescence of single-walled carbon nanotubes has discovered that the brightest nanotubes of identical length demonstrate uniform fluorescence intensity and their brightness varies proportionally with their length.
A research team from the Oak Ridge National Laboratory (ORNL) of the Department of Energy has demonstrated that point defects in graphene are helpful in transferring atomic-scale data by integrating electrons with light, paving the way to develop quicker and compact electronic devices.
A theory describing the growth of a nanotube proposed by Boris Yakobson from Rice University has been corroborated experimentally by the Air Force Research Laboratory located in Dayton, Ohio.
Scientists from the Savannah River National Laboratory (SRNL) of the U.S. Department of Energy have demonstrated novel ways to substitute monosodium titanate (MST)’s micron-sized particles with nano-sized particles, thus improving the efficacy of the ion exchange material.
A research team led by Paul Alivisatos from the Lawrence Berkeley National Laboratory (Berkeley Lab) of the U.S. Department of Energy has developed a novel solution-based synthesis method to produce nanocrystals with superior optoelectronic properties.
A research team led by Junichiro Kono from Rice University has developed a powerful terahertz polarizer utilizing carbon nanotubes as the crucial component, paving the way to develop advanced non-invasive medical imaging solutions, communication and security devices, and sensors.
Research and Markets now offers a new report titled ‘Nano-Fiber based Adhesives in Medical Field - Competitor and Patent Landscape Report - Key players, innovators and industry analysis.’
4Wave, a provider of thin film equipment and thin film coatings, has successfully completed the fiscal year 2011 with the delivery of multiple 200 mm ion beam sputtering systems to semiconductor foundries for the production of micro electro mechanical systems (MEMS).
A research team of Dr. James Tour’s lab at Rice University has developed a novel method to bond different organic molecules to graphene sheets, making the wonder material suitable for numerous organic chemistry applications.
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