Researchers at The University of Texas at Austin's Cockrell School of Engineering have created the first transistors made of silicene, the world’s thinnest silicon material. Their research holds the promise of building dramatically faster, smaller and more efficient computer chips.
IBM and SUNY Polytechnic Institute (SUNY Poly) today announced that more than 220 engineers and scientists who lead IBM’s advanced chip research and development efforts at SUNY Poly’s Albany Nanotech campus will become part of IBM Research, the technology industry’s largest and most influential research organization.
Dr. Yossef Elabd, professor in the Artie McFerrin Department of Chemical Engineering at Texas A&M University, has developed two fuel cell vehicle platforms for both present day enhancements and future innovation.
Applied Micro Circuits Corporation today announced the sampling of its 28-nanometer HeliXTM 2 embedded processor system-on-a-chip products. Launched in October 2014, AppliedMicro's HeliX™ family represents the first commercially available embedded processor SoCs based on the ARMv8-A 64-bit architecture.
Will it be possible one day to reconfigure electronic microchips however we want, even when they are in use? A recent discovery by a team at EPFL suggests as much. The researchers have demonstrated that it is possible to create conductive pathways several atoms wide in a material, to move them around at will and even to make them disappear. Their research is the subject of a recent article appearing in Nature Nanotechnology.
Aehr Test Systems, a worldwide supplier of semiconductor test and burn-in equipment, today announced a purchase order from a leading IC manufacturer for a custom FOX Multi-Wafer Test System WaferPakTM Contactor and evaluation activities that will enable the manufacturer to qualify Aehr Test's next-generation FOX-XP multi-wafer system and FOX WaferPakTM Contactor for production test and burn-in of its devices.
Researchers belonging to the University of Pennsylvania, the University of Illinois at Urbana-Champaign and University of California, Berkeley have demonstrated a new method for changing the quantity of electrons that exist in a particular region within a graphene piece. Using graphene, the team has provided a proof-of-principle for producing the basic building blocks of semiconductor devices.
With its high electrical conductivity and optical transparency, indium tin oxide is one of the most widely used materials for touchscreens, plasma displays, and flexible electronics. But its rapidly escalating price has forced the electronics industry to search for other alternatives.
Michael Liehr, Executive Vice President of Innovation and Technology at the State University of New York (SUNY) Polytechnic Institute, will give a talk at 10 a.m. Friday, Jan. 30, in Room 1065 of Kemper Hall on the UC Davis campus. The event is hosted by S.J. Ben Yoo, a professor in the UC Davis Department of Electrical and Computer Engineering. The talk is presented as part of the College of Engineering’s Distinguished Lecture Series.
Scientists from ICFO, MIT, CNRS, CNISM and Graphenea have conducted a study on active electrical control of energy flow from erbium ions into plasmons and photons.
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