Researchers created a machine learning model that predicts material responses to electric fields with quantum accuracy for up to a million atoms, speeding simulations.
Jun 9, 2025
Researchers have developed a novel nanopore sensing platform for single-biomolecule detection.
Jun 8, 2025
Researchers form Boise State University and University of Idaho have developed a technique that leverages biocompatible graphene foam to communicate with cells and help induce cartilage formation.
Jun 7, 2025
A team from Fudan University, the Shanghai Institute of Technical Physics, the Beijing University of Posts and Telecommunications and Shaoxin Laboratory, all in China, has developed a retinal prosthesis woven from metal nanowires that partially re...
Jun 6, 2025
In the "Mission: Impossible" films, superspy Ethan Hunt—played by Tom Cruise—gets orders from his superiors on various devices that self-destruct in five seconds. Could electronics disintegrate into nothing in real life? Binghamton Unive...
Jun 6, 2025
Inspired by the way viruses attach to cells, EPFL scientists have developed a method for engineering ultra-selective aptamers.
Jun 6, 2025
Researchers produce tiny transistors with high performance and reliability through the use of an innovative material and design.
Jun 6, 2025
Scientists demonstrated room-temperature plasmonic lasing by integrating quasi-two-dimensional perovskites with high-Q plasmonic nanostructures.
Jun 6, 2025
Researchers developed an innovative artificial complex, Cu@G-antimicrobial peptides, which shows great potential in antibacterial therapy, especially against drug-resistant bacteria like methicillin-resistant Staphylococcus aureus (MRSA).
Jun 6, 2025
Quantum dots with precise crystal growth and advanced processing enable compact, energy-efficient, and cost-effective light sources for optical fiber communications.
Jun 6, 2025
