Researchers unveil a roadmap for 2D transistor gate stack design, marking a key step toward ultra-efficient chips that could replace silicon technology.
Oct 14, 2025
Scientists have developed tunable materials that let free electrons move and interact in new ways, opening paths to faster computing, smarter machines, and advanced catalysts.
Oct 14, 2025
New portable test detects and measures different PFAS 'forever chemicals' in water, identifying trace amounts of these potentially toxic substances.
Oct 14, 2025
Solidion Technology, an advanced battery technology solutions provider, has announced the development of a next-generation Uninterruptible Power Supply (UPS) system designed specifically for the rapidly expanding artificial intelligence (AI) data ...
Oct 14, 2025
For the first time, researchers have successfully fabricated and characterized a fully functional mirror-image nanopore—a molecular gateway built entirely from D-amino acids, the mirror-image forms of the natural building blocks of proteins. The w...
Oct 13, 2025
A comprehensive review of scientific literature has identified nanofiltration (NF) membrane technologies as the most effective method for removing pharmaceutical contaminants from water sources, according to researchers from the University of Shar...
Oct 13, 2025
A research team from the Department of Orthopedics and Traumatology at the University of Hong Kong's LKS Faculty of Medicine (HKUMed) has successfully developed a novel elastic calcium phosphate material that mimics the structure of human bone.
Oct 13, 2025
Scientists are exploring many ways to use light rather than heat to drive chemical reactions more efficiently, which could significantly reduce waste, energy consumption, and reliance on nonrenewable resources.
Oct 13, 2025
A research team has co-developed a nanomaterial-based 'wireless multi-sensing platform' for the early detection of pressure injuries, which have a high prevalence among individuals with limited mobility, including the elderly and people ...
Oct 13, 2025
A precise electric field technique prints single quantum dots one at a time, enabling scalable arrays of quantum light sources for next generation photonic and quantum technologies.
Oct 13, 2025
