Advances in analytical chemistry are improving food safety. From mass spectrometry to machine learning and biosensors, ...
Interesting Engineering on MSN
Simple molecular tweak reveals how to control excitons in 2D perovskites
Two-dimensional perovskites are often seen as leading candidates for future LEDs and solar cells ...
Superconductors have long been considered a promising technology for the energy systems of the future. They can conduct ...
American startup unveils a 5 MW fusion reactor test plan and invites independent experts to verify its performance.
Understanding how hunger and long-term dietary habits shape our craving for sweet taste is key to tackling overconsumption of sugar. A new study ...
Comet 3I/ATLAS arrived from beyond the Solar System carrying a chemical story unlike anything astronomers had measured before ...
New research has revealed that water behaves differently when confined to spaces just one molecule thick. For the first time, ...
Researchers have developed a compact, low-cost convolutional spectrometer that delivers lab-grade precision for applications ...
The first hints of what's behind the seemingly illogical mismatch between photochemical reactivity and absorptivity could ...
Scientists used muons to show how pressure makes tantalum disulfide superconduct in 3D at three times higher temperatures.
Researchers at the Nano Life Science Institute (WPI-NanoLSI) at Kanazawa University, the Institute for Molecular Science and SOKENDAI have uncovered the hidden mechanism behind a molecular switch—a ...
Optimized stack pressure can double lithium-ion pouch cell cycle life by balancing cathode cracking and lithium plating.
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