For most of scientific history, chemical elements were identified through materials that could be handled, heated, weighed or ...
Europe's first TES spectrometer is transforming X-ray research with up to 1,000 times greater sensitivity, making once impossible experiments finally possible. Europe’s first and only TES spectrometer ...
From building the Centre for Pulse EPR at Imperial to probing electron transfer in real time, Maxie Rößler is pushing an overlooked technique into the spotlight ...
Two-dimensional (2D) perovskites are increasingly recognized as promising candidate materials for the next generation of ...
The Institute for Basic Science's heavy-ion accelerator research institute, known as IRIS, announced Tuesday that it had successfully conducted the country ...
Researchers developed a process to recover silicon and silicon dioxide (SiOâ‚‚) from end-of-life crystalline silicon solar ...
Perfluoroalkyl and polyfluoroalkyl substances (PFAS) are a class of synthetic chemicals widely used in industrial processes and consumer products because of their resistance to heat, water and oil.
A world in which authorities can scan sealed bottles for toxic contaminants—quickly, accurately and without damaging the ...
A new laser technique decodes molecular vibrations to predict whether a drug will be effective, potentially cutting years ...
By revealing metabolic vulnerabilities in fibrolamellar cancer, the research opens the door to targeted therapies that could ...
A mild oxalic-acid-based hydrometallurgical process enables efficient indium recovery from indium tin oxide in solar cell waste while simultaneously releasing silver grids. The approach achieves ...
Researchers have developed a predictive framework for 2D perovskite design to enable more efficient, stable solar cells.
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