Professor Sir Peter Hirsch, who has died aged 100, travelled to England on the Kindertransport and went on to establish a ...

The new collaboration allows scientists, including those in underserved regions such as Africa, to collect and process ...

Research from Cranfield University sheds new light onto the transition from the Bronze Age to the Iron Age, showing how ...

A research team from the University of Chinese Academy of Sciences has revealed the failure mechanism of diamond under ...

The tension between hundreds of protesters, RCMP officers and Canadian Food Inspection Agency (CFIA) workers has come to a ...

Advanced microscopy proves that dilute elements in semiconductors have preferred arrangements, not just random distribution.

Next-generation technology has helped solve a 30-year mystery of how Legionnaires' disease—a severe form of pneumonia—works, ...

A team led by Berkeley and GWU working with the U of A's Center for Manipulation of Atomic Ordering for Manufacturing Semiconductors confirmed that atoms in semiconductors arrange themselves in ...

Atoms in semiconductors do not mix randomly. Understanding these patterns could open possibilities for future devices.

Inside the forensic lab where the tiniest trace of red shimmer—the "nearly perfect" form of proof—closed a case.

Molecular engineering of a zinc battery co-solvent improves plating stability, suppresses side reactions, and delivers near-perfect efficiency through a single functional group substitution.

The Irish mathematician and physicist William Rowan Hamilton, who was born 220 years ago last month, is famous for carving some mathematical graffiti into Dublin's Broome Bridge in 1843.