category: Research: SLD

category: IoT, Security & Automotive

System Bits: Feb. 23
By Ann Mutschler - 23 Feb, 2016 - Comments: 0

Making electrons act like liquid While electrical resistance is a simple concept in that rather like friction slowing down an object rolling on a surface, resistance slows the flow of electrons through a conductive material, and now, MIT professor of physics Leonid Levitov and Gregory Falkovich, a professor at Israel’s Weizmann Institute of Science have found that electrons can sometimes tur... » read more

System Bits: Feb. 16
By Ann Mutschler - 16 Feb, 2016 - Comments: 0

WW seismic network app UC Berkeley researchers have released a free Android app that uses a smartphone’s ability to record ground shaking from an earthquake, with the goal of creating a worldwide seismic detection network that could eventually warn users of impending jolts from nearby quakes. The app, called MyShake, is available from the Google Play Store and runs in the background with... » read more

System Bits: Feb. 9
By Ann Mutschler - 09 Feb, 2016 - Comments: 0

Securing RFID chips Researchers at MIT and Texas Instruments have developed a new type of radio frequency identification (RFID) chip that they say is virtually impossible to hack, and which could secure credit cards, key cards, and pallets of goods in warehouses. The researchers reminded that if such chips were widely adopted, it could mean that an identity thief couldn’t steal your credi... » read more

System Bits: Feb. 2
By Ann Mutschler - 02 Feb, 2016 - Comments: 0

Wearable sensors reveal health data from sweat In the name of science, UC Berkeley researchers want you to break out into a sweat — so it can be analyzed, of course. Specifically, the researchers have created a flexible sensor system that can measure metabolites and electrolytes in sweat, calibrate the data based upon skin temperature and sync the results in real time to a smartphone. The... » read more

System Bits: Jan. 26
By Ann Mutschler - 26 Jan, 2016 - Comments: 0

Precisely controlling graphene molecules Researchers at UCLA’s California NanoSystems Institute have found that in the same way gardeners may use sheets of plastic with strategically placed holes to allow plants to grow but keep weeds from taking root, the same basic approach can be applied in terms of placing molecules in the specific patterns they need within tiny nanoelectronic devices, w... » read more

System Bits: Jan. 19
By Ann Mutschler - 19 Jan, 2016 - Comments: 0

Electromagnetic properties of graphene-boron nitride materials Rice University and Montreal Polytechnic researchers reported that developing novel materials from the atoms up goes faster when some of the trial and error is eliminated. The work aims to simplify development of certain exotic materials for next-generation electronics. Specifically, Rouzbeh Shahsavari, a Rice materials scient... » read more

System Bits: Jan. 12
By Ann Mutschler - 12 Jan, 2016 - Comments: 0

Coaxing human stem cells to form human organs In a step toward personalized drug testing, MIT researchers have coaxed human stem cells to form complex tissues in a new technique, which also has near-term implications for growing organ-like tissues on a chip and that may ultimately allow personalized organs to be grown for transplant patients. The researchers said growing organs on demand, u... » read more

System Bits: Jan. 5
By Ann Mutschler - 05 Jan, 2016 - Comments: 0

Faster quantum dot entanglement Due to entanglement between distant quantum objects being an important ingredient for future information technologies, ETH Zurich researchers have developed a method with which such states can be created a thousand times faster than before. [caption id="attachment_24629" align="alignright" width="300"] In two entangled quantum objects the spins are in a super... » read more

System Bits: Dec. 29
By Ann Mutschler - 29 Dec, 2015 - Comments: 0

Optoelectronics built using existing manufacturing Using only processes found in existing microchip fabrication facilities, researchers at MIT, the University of California at Berkeley, and the University of Colorado have produced a working optoelectronic microprocessor that computes electronically but uses light to move information. The researchers reminded that optical communications prom... » read more

System Bits: Dec. 23
By Ann Mutschler - 23 Dec, 2015 - Comments: 0

Building MEMS at one-hundredth the cost The microelectromechanical systems (MEMS) market was $12 billion business in 2014, dominated by a handful of devices, such as accelerometers that reorient the screens of most smartphones. However, researchers at MIT pointed out that potentially useful MEMS have languished in development because they don’t have markets large enough to justify the initia... » read more

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