A research team led by Yong-Hang Zhang from the Arizona State University is involved in the development of novel ways using nanoscale materials for optimizing infrared photodetector technology used in national security and defense systems.
Researchers at MIT have developed a potential new technology for leveling the load in renewable energy sources. Intermittency of clean and renewable energy is a major disadvantage. Addressing this issue by leveling the erratic supplies will help increase the viability of these energy sources.
A research team led by Stephan Link from Rice University has demonstrated that tiny channels of gold nanoparticles are capable of transmitting electromagnetic energy that begins as light and transmits through ‘dark plasmans.’
A research team led by Lih Y. Lin and Fred Rieke from the University of Washington (UW) has developed a novel and highly targeted method by harnessing quantum dots for activating neurons in the brain in order to understand the way of communication of nerve cells.
An international team led by a chemistry professor at Penn State University (PSU), John Badding, has developed crystalline materials that enable integration of high-speed electronic components to an optical fiber.
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 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.
A group of scientists headed by Nina Rohringer from the Hamburg Center for Free-Electron Laser Science (CFEL) realized the first X-ray laser based on atoms at the Californian research centre SLAC.
Using neon atoms, th...
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