Ocean Optics reports on how spectroscopy revolutionizes research by utilizing light to analyze materials, improving accuracy ...

This detailed overview explains the technical mechanisms of LC-MS proteomics, including peptide separation, ion generation, ...

Corpse plants are rare, and seeing one bloom is even rarer. They open once every seven to 10 years, and the blooms last just ...

The newly discovered crystal, platinum-bismuth-two (PtBi2), could revolutionize quantum computing with its unique superconductivity and particle properties.

Japanese scientists unveil a catalyst that turns CO₂ into liquid methanol at room temperature with 100% efficiency.

A multilayered semiconductor acting as an optical sensor opens the way to miniaturized, adjunct spectrometers.

Scientists reveal how iron-rich soil minerals chemically trap carbon using multiple nanoscale bonding mechanisms.

Superconductors promise loss-free electricity, but most only work at extreme cold. Hydrogen-rich materials changed that—yet their inner workings remained hidden because they only exist under enormous ...

Leading X-ray space telescopes XMM-Newton and XRISM have spotted a never-seen-before blast from a supermassive black hole. In ...

Neutrinos may be nearly invisible, but they play a starring role in the Universe. Long-standing anomalies had hinted at a ...

While scientists have long known that iron oxide minerals help lock away enormous amounts of carbon—sequestering it from the ...

Scientists have uncovered new details explaining why iron oxide minerals are such effective long-term carbon traps in soils. Scientists have known for years that iron oxide minerals play a major role ...