Researchers use supercomputers and artificial intelligence to predict how carbon transforms under extreme heat and pressure, paving the way for revolutionary materials.

A Professional Course in Advanced Microscopy (PCAM) 2026 has been introduced to provide students and early-career researchers ...

As industries increasingly demand precision in particle size and consistency, high-performance laboratory milling solutions have become indispensable for research and development. Shandong Jing Xin ...

Field-flow fractionation (FFF), and, in particular, asymmetrical flow field-flow fractionation (AF4), is transitioning from a specialized separation technique into an application-driven analytical ...

Advancements in Nanotechnology Reviews Journal for 2026 This year, the Nanotechnology Reviews Journal is once again at ...

Gerd Binnig's creation of the scanning tunnelling microscope has been fundamental to nanoscience, influencing diverse ...

History has a strange habit of forgetting its own brilliance. Civilizations rose, fell, and took entire libraries of ...

A University of Sydney-led research team has reported a new certified efficiency mark for large-area ...

Researchers at UCLA have discovered a way to dramatically improve how electrical current enters perovskite semiconductors, an emerging class of materials with enormous potential for next-generation ...

Carbon forms the graphite in pencils, the diamonds in jewelry and the molecules that make up every living thing. But under ...

Malaria parasites contain tiny spinning crystals that have puzzled scientists for years. New research reveals they’re powered by a rocket-like reaction that breaks down hydrogen peroxide, releasing ...