Controlling superconducting regions within an exotic metal

Researchers at EPFL have created a metallic microdevice in which they can define and tune patterns of superconductivity. Their discovery, which holds great promise for quantum technologies of the future, has just been published ...

Accidental discovery of strong and unbreakable molecular switch

An organic material that can repeatedly change shape without breaking would have many useful applications, such as artificial muscles, pumps or as a switch. Physicists at Radboud University accidentally discovered a material ...

New smart materials to tackle global challenges

Understanding how natural materials are created has helped a Griffith University research team create a smart material platform to aid in the creation of new drugs and even help in the clean-up of polluted environments.

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