category: Research: SLD

category: IoT, Security & Automotive

System Bits: July 28
By Ann Mutschler - 28 Jul, 2015 - Comments: 0

Massless particles for faster electronics Princeton University researchers along with an international team have finally proved a massless particle that had been theorized for 85 years. They say this particle could give rise to faster and more efficient electronics because of its unusual ability to behave as matter and antimatter inside a crystal. [caption id="attachment_21431" align="align... » read more

System Bits: July 21
By Ann Mutschler - 21 Jul, 2015 - Comments: 0

White graphene can take the heat According to researchers at Rice University, 3D boron nitride structures excel at thermal management for electronics. Rice researchers Rouzbeh Shahsavari and Navid Sakhavand have completed the first theoretical analysis of how 3D boron nitride might be used as a tunable material to control heat flow in such devices. In its 2D form, hexagonal boron nitride... » read more

System Bits: July 14
By Ann Mutschler - 14 Jul, 2015 - Comments: 0

Missing magnetism of plutonium found In a discovery by two national labs that could hold great promise for materials, energy and computing applications, plutonium’s magnetism has been confirmed, which scientists have long theorized but have never been able to experimentally observe. According to Oak Ridge National Lab and Los Alamos National Lab, plutonium was first produced in 1940. Its ... » read more

System Bits: July 7
By Ann Mutschler - 07 Jul, 2015 - Comments: 0

Faster lasers for better memory To visualize in four dimensions the changing atomic configurations of materials undergoing phase changes — which happens when data is recorded on DVDs and Blu-ray disks — Caltech researchers have adopted a novel technique called ultrafast electron crystallography (UEC) that uses ultrafast laser pulses that speed up the data recording process. Interestingl... » read more

System Bits: June 30
By Ann Mutschler - 30 Jun, 2015 - Comments: 0

Implantable drug-delivery chip An implantable, microchip-based device developed by MIT spinout Microchips Biotech may soon replace the injections and pills now needed to treat chronic diseases. The company partnered with Teva Pharmaceutical to commercialize its wirelessly controlled, implantable, microchip-based devices that store and release drugs inside the body over many years. [caption id... » read more

System Bits: June 23
By Ann Mutschler - 23 Jun, 2015 - Comments: 0

Magnifying motions indiscernible to the naked eye For several years now, the research groups of MIT professors of computer science and engineering William Freeman and Frédo Durand have been investigating techniques for amplifying movements captured by video but indiscernible to the human eye. Versions of their algorithms can make the human pulse visible and even recover intelligible speech fr... » read more

System Bits: June 16
By Ann Mutschler - 16 Jun, 2015 - Comments: 0

Origami robot At the recent International Conference on Robotics and Automation, MIT researchers presented a printable origami robot that folds itself up from a flat sheet of plastic when heated and measures about a centimeter from front to back. The robot weighs just a third of a gram, and can swim, climb an incline, traverse rough terrain, and carry a load twice its weight. Other than the... » read more

System Bits: June 9
By Ann Mutschler - 09 Jun, 2015 - Comments: 0

Optical constraints Stanford University researchers have discovered strong constraints to optical data transmission but hope it can guide future research in this area. As a reminder, optics, a form of data transmission that utilizes beams of light, has the promise to outperform the beams of electrons that drive computers or smartphones. And as engineers have long looked for a way to miniatu... » read more

System Bits: June 2
By Ann Mutschler - 02 Jun, 2015 - Comments: 0

Subcutaneous medicine chip A biosensor chip developed at EPFL is capable of simultaneously monitoring the concentration of a number of molecules, such as glucose and cholesterol, and certain drugs. It’s only a centimeter long, placed under a patient’s skin, powered by a patch on the surface of the skin, and communicates with a mobile phone. [caption id="attachment_20134" align="alig... » read more

System Bits: May 26
By Ann Mutschler - 26 May, 2015 - Comments: 0

Microfluidic cell-squeezing MIT researchers have shown it is possible to use a microfluidic cell-squeezing device to introduce specific antigens inside the immune system’s B cells, providing a new approach to developing and implementing antigen-presenting cell vaccines. These types of vaccines are created by reprogramming a patient’s own immune cells to fight invaders, and are believed ... » read more

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