A University of Minnesota team of researchers has overcome a major hurdle in the quest to design a specialized type of molecular sieve that could make the production of gasoline, plastics and various chemicals more cost effective and energy efficient.
Researchers at Yale University are studying how two types of nanoscale structures on the feathers of birds produce brilliant and distinctive colors. The researchers are hoping that by borrowing these nanoscale tricks from nature they will be able to produce new types of lasers - ones that can assemble themselves by natural processes.
When Empa researchers receive prizes, it is usually to honour their scientific work. However, the photographs from the scanning electron microscope, taken by Siddhartha Pathak during his postdoctoral time at Empa in Thun, have already been recognized several times for their aesthetic value.
Developed jointly by Nanyang Technological University (NTU) and A*STAR Institute of Microelectronics (IME), the new thin-film silicon solar cells are designed to be made from cheaper, low grade silicon. However it is able to generate electricity currents close to that produced by traditional solar cells made from costly, high quality silicon.
The National Science Foundation has awarded $776,114 to Indiana University Bloomington researchers to acquire instrumentation for investigating how the nanoscale structure and composition of surfaces give rise to the unique properties of materials.
A team of scientists led by a Penn State University chemist has demonstrated the strengths and weaknesses of an alternative method of molecular depth profiling -- a technique used to analyze the surface of ultra-thin materials such as human tissue, nanoparticles, and other substances.
Reflecting its worldwide leadership in the search for new computing technologies, the University of Notre Dame has received two of 12 prestigious grants for cutting-edge nanoelectronics research that were awarded recently by the Semiconductor Research Corporation's Nanoelectronics Research Initiative (SRC-NRI) and the National Science Foundation.
To further explore diamonds' quantum computing potential, researchers from the University of Science and Technology of China tested the properties of a common defect found in diamond: the nitrogen-vacancy center.