Rocket Lab’s final Electron mission of the year did more than loft another payload into orbit. By delivering a Japanese radar ...

Hydrogen production through water electrolysis is a cornerstone of the clean energy transition, but it relies on efficient ...

Scientists have developed a way to precisely tune atomic-scale platinum “skin” layers on porous PtCu nanodendrites—revealing how these ultrathin ...

Researchers discover that embedding iridium atoms inside catalyst crystals instead of on the surface dramatically improves ...

A precise synthesis tunes platinum skin thickness on PtCu nanospheres and shows two atomic layers give the best oxygen ...

Hydrogen production through water electrolysis is a cornerstone of the clean energy transition, but it relies on efficient and stable catalysts that ...

Electrocatalysis underlies hydrogen production, fuel cells, and carbon-neutral chemical synthesis, which enables next-generation clean-energy systems ...

Through a recent notice, the Undergraduate Medical Education Board (UGMEB) of the National Medical Commission (NMC) has ...

Ultrashort bursts of laser light are giving scientists a way to freeze one of chemistry’s most elusive moments, the instant ...

Dynamic light scattering (DLS) is a frequently used technique for determining the size of nanoparticles in suspension. It ...

Atomic nuclei are often described as orderly systems. Certain numbers of protons or neutrons, called magic numbers, usually produce especially stable and spherical nuclei.

A research team reveals that naturally occurring iron oxyhydroxide nanoparticles play a far more influential role in breaking down these chemicals than previously understood.