Manufacturing Bits: July 21


Graphene metrology Harvard University, Monash University and the U.S. Department of Energy’s Lawrence Berkeley National Laboratory have developed a new technique that provides atomic-scale images of colloidal nanoparticles. The technique, dubbed SINGLE, stands for 3D Structure Identification of Nanoparticles by Graphene Liquid Cell Electron Microscopy. Using the technology, researchers ha... » read more

Power/Performance Bits: July 14


Photo-doping semiconductors Scientists at Michigan State University found that by shooting an ultrafast laser pulse into a semiconducting material, its properties would change as if it had been chemically doped, in a process known as photo-doping. "The material we studied is an unconventional semiconductor made of alternating atomically thin layers of metals and insulators," said Chong-Yu... » read more

System Bits: July 14


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

Manufacturing Bits: July 14


Exploring the proton It took 23 years to conduct the experiments, but physicists have finally provided detailed results about the proton. The Deutsches Elektronen-Synchrotron (DESY) organization conducted the experiments within its particle accelerator from 1992 to 2007. The experiments took place in DESY’s Hadron Electron Ring Accelerator (HERA), an electron-proton collider. Then, ove... » read more

System Bits: July 7


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

Manufacturing Bits: July 7


Silicon photonics prototyping A group of European and other research organizations have put the finishing touches on a project to help propel the development of silicon photonics into the commercial market. The project, dubbed ESSenTIAL, enables small- to mid-sized enterprises to develop prototypes and products based on silicon photonics. Funded by the European Commission, the project inclu... » read more

Power/Performance Bits: July 7


Direct solar energy storage Storing solar energy as hydrogen is a promising way for developing comprehensive renewable energy systems. To accomplish this, traditional solar panels can be used to generate an electrical current that splits water molecules into oxygen and hydrogen, the latter being considered a form of solar fuel. However, the cost of producing efficient solar panels makes wate... » read more

Power/Performance Bits: June 30


Tiny, solar-powered sensors Last week, at the Symposia on VLSI Technology and Circuits, MIT researchers presented a new power converter chip that can harvest more than 80 percent of the energy trickling into it, even at the extremely low power levels characteristic of tiny solar cells. Previous ultralow-power converters that used the same approach had efficiencies of only 40 or 50 percent. ... » read more

Manufacturing Bits: June 30


3D printed supercars Divergent Microfactories has rolled out a new approach to auto manufacturing based on 3D printing. The technology is based on what the company calls a Node. A Node is a metal alloy that is produced using 3D printers. The Nodes are combined with carbon fiber tubes, which, in turn, enable the development of a car chassis. [caption id="attachment_20782" align="alignleft... » read more

System Bits: June 30


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

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