Medicine & TechnologyResearchers demonstrated in a study for the first time that long-term nanosilver treatment can increase the danger of recurring infections.
A research team developed an extremely sensitive nanopore sensor that particularly identifies COVID-19 viruses and other human adenoviruses in an assortment of samples like a serum, saliva, or environmental specimens like wastewater.
Researchers at ITMO University, Buman Mosco State Technical University, and the University of Toronto have recently developed gel ink that's eco-friendly and safe to use even in the food industry.
Chalcogenide glasses are widely used in electronics as well as near- and mid-infrared photonics. Electrical engineers found that their use can be extended to visible and ultraviolet applications by changing their physical shape.
Cancer immunotherapy is seeking to make "cold" tumors hot, those that are responding to immunotherapy, by stimulating and enlisting the own immune system of the body.
Researchers from the Chalmers University of Technology created microscopic metavehicles that can be maneuvered using nothing but light. They succeeded in moving the metavehicles and transported other objects as well.
Hydrogen energy is potentially a key measure to meet the United Nations net zero emissions target, although its industrial function has been stalled by the hardship in both its handling and storage.
Scientists from Cornell University developed micro-robotic swimmers that can be powered by ultrasound waves that someday could be used as a new tool for targeted drug delivery.
Researchers discovered a new physical impact relative to the interactions between light and twisted materials, an impact that's possible to have consequences for developing new nanotechnologies in communications
Researchers identified a new, less expensive, and more effective electrocatalyst to produce green hydrogen from water that could, in the future, open new doors for more extensive production of clean energy.
Researchers recently developed a new approach to measure atomic bonds and nature, revealing that a sound's speed depends on the structure it travels through.