Ravi Prasher, an Arizona State University alumnus, has been elected a Fellow of the American Society of Mechanical Engineers in recognition of his innovative research.
Prasher earned his doctorate in mechanical engine...
Graphene, the two-dimensional crystalline form of carbon, is a potential superstar for the electronics industry. With freakishly mobile electrons that can blaze through the material at nearly the speed of light - 100 times faster than electrons can move through silicon - graphene could be used to make superfast transistors or computer memory chips.
The single-atom thick material graphene maintains its high thermal conductivity when supported by a substrate, a critical step to advancing the material from a laboratory phenomenon to a useful component in a range of nano-electronic devices, researchers report in the April 9 issue of the journal Science.
Maskless Lithography, Inc., a Silicon Valley startup led by a group of industry veterans, today came out of stealth mode with a brand new direct-write digital imaging technology that will raise the bar in printed circuit...
Design engineers in the electronics industry who are seeking ways to improve power integrity and reduce electromagnetic interference (EMI) while meeting halogen-free requirements now have a new solution to meet their nee...
Printed circuit board (PCB) and integrated circuit (IC) package design engineers can now download a simulated model of Embedded Capacitance Materials (ECM) from 3M for use in HFSS™ and SIwave™ engineering simulation software.
The World biggest semiconductor foundry from Taiwan has placed a combined order for the Mask Defect Repair System MeRiT® HR 32 and the Aerial Image Measurement System AIMS™ 32-193i from Carl Zeiss to prepare for the production of next generation high-end photomasks.
The Ohio University-led study, published Sunday as an advance online publication in the journal Nature Nanotechnology, provides the first evidence that nanoscale molecular superconducting wires can be fabricated, which could be used for nanoscale electronic devices and energy applications.
Arrhythmic hearts soon may beat in time again, with minimal surgical invasion, thanks to flexible electronics technology developed by a team of University of Illinois researchers, in collaboration with the University of Pennsylvania School of Medicine and Northwestern University. These biocompatible silicon devices could mark the beginning of a new wave of surgical electronics.
American Superconductor Corporation (NASDAQ: AMSC), a global power technologies company, and LS Cable Ltd. (LS Cable), the third largest power cable manufacturer in the world, today announced that they have expanded thei...
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