Manufacturing Bits: June 5


Water insulators North Carolina State University, the Oak Ridge National Laboratory (ORNL) and Texas A&M University have developed what could be considered as water insulators for energy storage applications. Basically, researchers sandwiched water between two materials, enabling higher power storage devices with more efficiency. More specifically, in the lab, researchers developed a compou... » read more

System Bits: June 5


The right squeeze for quantum computing In an effort to bring quantum computers closer to development, Hokkaido University and Kyoto University researchers have developed a theoretical approach to quantum computing that is 10 billion times more tolerant to errors than current theoretical models. The team said their method may lead to quantum computers that use the diverse properties of sub... » read more

Power/Performance Bits: June 5


Self-assembled battery Researchers at Cornell University developed a self-assembling battery capable of near-instant charging. Instead of having the batteries' anode and cathode on either side of a nonconducting separator, the team's new approach intertwines the components in a self-assembling, 3D gyroidal structure, with thousands of nanoscale pores filled with the elements necessary for e... » read more

Manufacturing Bits: May 29


Utilizing Heat For Energy One of the big problems in electronics in general, and semiconductors particular, is heat. And it's not just about leakage current anymore. Heat is a problem at every level, from circuit design to the materials being used inside the chips, as well as warpage between die caused by heat after they are packaged together. Heat can prematurely age chips as well as destroy ... » read more

System Bits: May 29


Ultra-low-power sensors carrying genetically engineered bacteria to detect gastric bleeding In order to diagnose bleeding in the stomach or other gastrointestinal problems, MIT researchers have built an ingestible sensor equipped with genetically engineered bacteria. [caption id="attachment_24134598" align="alignleft" width="300"] MIT engineers have designed an ingestible sensor equipped with... » read more

Power/Performance Bits: May 29


Using bandwidth like a fish Researchers from the University of Georgia developed a method to make fuller use of wireless bandwidth, inspired by a cave-dwelling fish's jamming avoidance response. Eigenmannia fish live in complete darkness, sensing their environment and communicating through emitting an electric field. When two fish emit signals at similar frequencies they can interfere with ... » read more

Manufacturing Bits: May 22


Exotic water The Deutsches Elektronen-Synchrotron (DESY) organization, Uppsala University and SLAC have turned a large X-ray laser into the world’s fastest water heater. Using an X-ray free-electron laser from the SLAC National Accelerator Laboratory, researchers have heated water from room temperature to 100,000 degrees Celsius in less than a tenth of a picosecond or a millionth of a mil... » read more

System Bits: May 22


AI disruptions and benefits in the workplace According to Stanford University researchers, artificial intelligence offers both promise and peril as it revolutionizes the workplace, the economy and personal lives. Visiting scholar James Timbie of the Hoover Institution, who studies artificial intelligence and other technologies, said that in the workplace of tomorrow, many routine jobs now p... » read more

Power/Performance Bits: May 22


Sensing without battery power Engineers at the National University of Singapore developed an IoT-focused sensor chip that can continue operating when its battery runs out of energy. The chip, BATLESS, uses a power management technique that allows it to self-start and continue to function under dim light without any battery assistance. The chip can operate in two different modes: minimum-ene... » read more

Manufacturing Bits: May 15


Space metrology NASA is developing a mini-electron probe based on an array of carbon nanotube dots. The probe would be used in an instrument, which would analyze the chemical properties of rocks and soils on asteroids, moons and planets. For years, NASA has been working with carbon nanotubes in various applications. Carbon nanotubes are hard, cylindrical nanostructures with good electrical ... » read more

← Older posts Newer posts →