New method developed for measuring thermal expansion in atomically thin materials
That insight can help address heat-related performance issues of materials incorporated into microelectronics, such as computer chips.
Jun 28th, 2024
Read moreThat insight can help address heat-related performance issues of materials incorporated into microelectronics, such as computer chips.
Jun 28th, 2024
Read moreResearchers have set a record by conducting thin film experiments at 1100 degrees C.
Jun 28th, 2024
Read moreNew research reveals that larger, star-shaped gold nanoparticles are more effective at killing cancer cells by perforating cell membranes and inducing oxidative stress.
Jun 27th, 2024
Read moreTargeted medication reduced scar tissue formation, improved function in one treatment.
Jun 27th, 2024
Read moreTopological insulators and semimetals have intriguing thermoelectric properties. This study of Cd3As2 thin films finds enhanced Seebeck and Nernst effects at cryogenic temperatures.
Jun 27th, 2024
Read moreScienists have developed a strategy to fabricate carbon nanotube fibers with the dynamic strength up to 14 GPa.
Jun 27th, 2024
Read moreResearchers achieved highly efficient field-free spin-orbit torque magnetization switching through atom-level control of composite oxides.
Jun 27th, 2024
Read moreScientists have come up with a promising method for understanding the role of surface molecules in the formation of nanoparticles.
Jun 27th, 2024
Read moreResearchers developed zeolitic imidazolate frameworks (ZIFs) mimicking intricate machines, enabling precise control over nanoscale mechanical movements and advancing nanotechnology.
Jun 27th, 2024
Read moreMagnetization can be switched with a single laser pulse, but its scalability to the nanometer scale is unknown. Researchers have found the spatial limit for light-driven magnetization reversal.
Jun 27th, 2024
Read moreEngineers developed a pill that releases microrobots into the colon to treat IBD. In mice, it reduced symptoms and healed tissue without toxic side effects.
Jun 26th, 2024
Read moreScientists revealed how vesicles self-assemble within cell membranes, aiding the design of bio-inspired vesicles for drug delivery and life-like synthetic materials.
Jun 26th, 2024
Read moreMolecular dynamics simulations shed light on a critical limitation of carbon nanotube yarns, paving the way for possible solutions.
Jun 26th, 2024
Read moreResearchers developed innovative electrospinning techniques enhancing medical devices, promising to revolutionize nano/microrobots, wearable/implantable biosensors, and organ-on-chip systems.
Jun 26th, 2024
Read moreThe prototype is four orders of magnitude smaller (10,000x) and three orders less expensive (1,000x) than any Ti:sapphire laser ever produced.
Jun 26th, 2024
Read moreA small optical lens changes its refractive behavior in the presence of gas, enabled by a hybrid glass material with a 3D lattice structure.
Jun 26th, 2024
Read more