Compared to other superconducting diodes, the new device is more energy efficient; can process multiple electrical signals at a time; and contains a series of gates to control the flow of energy, a feature that has never before been integrated int...
Jun 6, 2023
Researchers from Sichuan University, Chinese Academy of Sciences and Georgia Institute of Technology have developed a graphene-based wearable textile that can convert body movement into useable electricity and even store that energy. The fabric ca...
Jun 6, 2023
Researchers have successfully stimulated hair growth in mice using microRNA to genetically manipulate hair follicle stem cells, meaning that balding pate may one day be sporting a mane of luscious locks.
Jun 6, 2023
Identifying whether and how a nanoparticle and protein will bind with one another is an important step toward being able to design antibiotics and antivirals on demand, and a computer model developed at the University of Michigan can do it.
Jun 6, 2023
Researchers have demonstrated a quantum speedup over the most efficient classical computer algorithm possible for what is believed to be the first time. The accomplishment was performed on an IBM Montreal Quantum Falcon r4 27-qubit device.
Jun 5, 2023
During the keynote at Apple's Worldwide Developers Conference, rumors about a new 15-inch MacBook Air were confirmed with the announcement of the company's latest lightweight laptop. The new model adds two inches to the screen, which mea...
Jun 5, 2023
About US $100 billion each year of energy produced in the United States each year is wasted as heat. Now a new study finds that microscopic pillars built into thermoelectric materials could dramatically boost the conversion of heat into electricit...
Jun 5, 2023
The Japanese electronics giant Sony has announced its first steps into quantum computing by joining other investment groups in a £42m venture in the UK quantum computing firm Quantum Motion. The move by the investment arm of Sony aims to boost the...
Jun 5, 2023
Cancer surgeons may soon have a more complete view of tumors during surgery, thanks to new imaging agents that can illuminate multiple biomarkers at once, University of Illinois Urbana-Champaign researchers report. The fluorescent nanoparticles, w...
Jun 5, 2023
The fluorescent nanoparticles, wrapped in the membranes of red blood cells, target tumors better than current clinically approved dyes and can emit two distinct signals in response to just one beam of surgical light, a feature that could help doct...
Jun 5, 2023
