Materials scientists at the University of Minnesota Twin Cities have found a way to create and control tiny "flaws" inside ultra-thin materials. These internal features, known as extended defects, ...

D printing is extremely practical when you want to produce small quantities of customized components. However, this technology has always had one major problem: 3D printers can only process a single ...

A sophisticated analysis of experimental ARPES data confirmed that the electronic properties of each chain are truly one-dimensional, and calculations further predict an exciting phase transition. For ...

Guest writer Dr Kun-Yu Wang describes how the development of a tunable MOF illustrates chemistry's potential in mechanical ...

Researchers uncovered a crucial mechanism that reveals how electrons and atoms interact to create a new quasiparticle and ...

Scientists can now create and control tiny internal defects in ultra-thin materials, enabling new properties and potential breakthroughs in nanotechnology.

Researchers are exploring MXenes, 2D materials that could transform air into ammonia for cleaner fertilizers and fuels. Their ...

Stanford scientists found that strontium titanate improves its performance when frozen to near absolute zero, showing ...

Strontium titanate’s remarkable ability to perform at extremely low temperatures makes it a key material for next-generation cryogenic devices used in quantum computing and space exploration. Supercon ...

If you would like to learn more about the IAEA’s work, sign up for our weekly updates containing our most important news, multimedia and more. This publication presents the results of an IAEA ...