Despite rare earth elements' importance in manufacturing cell phones, magnets and a host of other consumer and commercial ...

Researchers at Penn State have developed a plant-based material that can selectively recover dysprosium, ...

Researchers at the University of Oxford have developed a powerful new method to visualize an essential lithium-ion battery electrode component that had been extremely difficult to trace before. The ...

A large share of waste is biological in origin and therefore suitable as food for bacteria. As part of his doctoral research, ...

This football-sized creature could grind its teeth like a hard-core plant-eater, back before that was really a thing — and it ...

Cellulose, the main strengthening component of wood, is the most abundant polymer on Earth, and is the basis of papermaking.

Asahi Kasei Pharma & Alchemedicine advance a novel therapeutic candidate into phase I study to treat refractory diseases: Tokyo Friday, February 20, 2026, 14:00 Hrs [IST] Asahi Ka ...

Cotton's history is as rich and complex as the Silk Road itself. Discover its ancient origins and modern uses beyond clothing ...

As building codes evolve and fire risks grow more complex, rigorous testing and third-party certification of passive fire ...

A new staining technique makes invisible polymer binders in Li-ion battery electrodes traceable, enabling better placement control to boost battery performance.

Plush sound, plush earpads.

Researchers at the University of Oxford have developed a powerful new method to visualise an essential lithium-ion battery electrode component that ...