Glass fibers are used in numerous applications - from connecting people to the internet to enabling keyhole surgery by supplying light via medical devices such as endoscopes. Although today's fiber optics is versatile, scientists globally are eager to broaden their capabilities by incorporating semiconductor core materials to the glass fibers.
Engineers at the University of Cambridge have developed a new, ultralow power transistor that operates by scavenging energy from their environment. This latest transistor could pave the way for new electronic applications such as implantable or wearable devices that can function continuously, for months or even years, without a battery by drawing energy from their environment. Devices based on this transistor can significantly reduce the amount of power used.
A “superomniphobic” tape that can provide liquid-repelling properties to any surface it is adhered to has been developed by Arun Kota, who works as an assistant professor of mechanical engineering in the School of Biomedical Engineering. The details of this study have been reported by the American Chemical Society.
Our well-tried NDT X-ray chemicals for industrial film processing have been further improved by DÜRR NDT and have obtained REACH compliance.
When it comes to spare parts, there’s no matching the genuine quality you gain from using Alfa Laval genuine parts, designed and manufactured for durability, reliability, productivity, less environmental impact and long life.
A new process to stabilize metals at the nano level has the potential to create faster, more efficient turbines, feasibly improving everything from war planes to dams to ship engines.
Thermcraft is pleased to introduce Mr. Scott Miller as our new North American Sales Manager. Scott will have responsibility for developing Thermcraft's market presence as well as assisting in the marketing strategy for both the US and Canadian markets.
A team of researchers from Cornell University have invented a technique to merge the large energy-storage capacity of batteries with the higher charge-discharge rate of supercapacitors in order to develop a strong electrical energy storage (EES) device.
Researchers at Penn State and the Molecular Foundry at Lawrence Berkeley National Laboratory are pushing the limits of electron microscopy into the tens of picometer scale, a fraction of the size of a hydrogen atom.
At the Microscopy & Microanalysis 2016 Meeting, Bruker today introduces the e-FlashFS and e-FlashHD, two models of a new generation of detectors for electron backscatter diffraction (EBSD) analysis on scanning electron microscopes (SEM), and ESPRIT™ QUBE, a new software package for advanced post-processing and visualization of 3D EBSD/EDS data cubes.
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