A pulsed thermal shock technique produces micron-thick flexible graphite films ten times faster than conventional methods without sacrificing crystalline quality or thermal performance.

Paleomagnetic analysis of 28 Ryugu asteroid particles reveals stable magnetization acquired within millions of years of solar ...

Tiny life forms tucked into debris from an asteroid hit could catapult to other planets - including Earth - and survive, a new study finds.

A new photocatalytic 2D membrane reactor achieves 99% conversion in under 7 seconds at room temperature, offering a faster ...

A comprehensive review examines how nanoengineered wood can serve as a renewable platform for energy storage, water treatment ...

Scientists have taken the first step toward developing antiferromagnetic technology. They detected a liquid-crystal phase that may change the game for spintronic devices.

Researchers developed a lignin derived hard carbon anode for sodium ion batteries with 90.6 percent initial Coulombic efficiency and 401.5 mAh per gram reversible capacity.

Researchers propose a universal mechanism that enables deterministic electrical control of collinear antiferromagnets.

A self-propelled nanoparticle engineered through computer simulation could bring laboratory-grade cancer detection to ...

Researchers developed an AI-guided method that dramatically speeds up a widely used X-ray technique known as X-ray absorption near-edge structure (XANES) spectroscopy. It does so with far less risk of ...

Researchers used artificial intelligence to redesign hydrogen fuel cell catalysts, boosting performance and durability while cutting costs for clean transport.

Chemists discovered that a seemingly solid, nonporous crystal can 'come alive' when heated. A two-step transformation releases trapped molecules, drives a vivid blue - green - yellow glow, and even ...