Zinc–air batteries offer high theoretical energy density, intrinsic safety, and abundant raw materials, making them attractive for large-scale energy storage and flexible electronics. However, their ...

Lawrence Livermore National Laboratory scientists have trapped a single plutonium atom inside a tiny molecular cage, using only six micrograms of the radioactive metal. The work turns an element ...

Researchers at Oregon State University have reported an iron-based nanomaterial that exploits the biochemical environment of ...

Engineers are preparing the Ariane 64 rocket for its first launch. This powerful version of the Ariane 6 will carry 32 satellites for Amazon Leo’s broadband constellation on Thursday. Workers ...

Comprehensive review reveals how nanostructure engineering can slash costs and boost durability for clean energy applications ...

Just after 9 a.m. on Friday, Feb. 6, 2026, final beams of oxygen ions—oxygen atoms stripped of their electrons—circulated ...

The last collisions at RHIC took place on February 6, 2026. The particle accelerator provided insights into Big Bang matter for 25 years.

A generative AI framework rapidly designs optimized fuel cell catalyst layers that deliver significantly better performance ...

Drawing on both editorial insight and hard data from Billboard Boxscore, this report identifies 28 venues that define the live-music experience today — the rooms that artists dream of playing and fans ...

The study offers a versatile strategy for advancing zinc–air batteries toward real-world applications, including grid-scale energy storage, wearable electronics, and solar-assisted power systems.

In this video, I explain why some reactions explode while others cool, exploring the root cause of chemical energy. I discuss ...

Scrutinizing the electronic structure of oxygen-deficient metal oxides has been a long-standing quest for electronic materials engineering. X-ray spectroscopy is one of the good options to ...