For the first time, a team at BESSY II has succeeded in demonstrating the one-dimensional electronic properties of a material ...

Graphene and its molecular fragments, known as nanographenes, are key materials for next-generation organic electronics due ...

EPFL researchers have engineered a fiber-based electronic sensor that remains functional even when stretched to over 10 times ...

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

Electronic waste is piling up around the world at a rate that far outpaces recycling efforts, partly because it's so costly ...

Much of modern life is supported by advanced materials that power everything from smartphones to electric vehicles. As ...

Crystal structure prediction (CSP) of organic molecules is a critical task, especially in pharmaceuticals and materials ...

The FIMAP Lab's smart knee brace. 2025 EPFL/Hugo Masson CC BY SA EPFL researchers have engineered a fiber-based electronic ...

Researchers have found that 2D materials can self-form microscopic cavities that trap light and electrons, altering their ...

Breakthrough from Princeton team reveals exotic quantum state that coherently blends many-body correlation and quantum topology—two key concepts of modern quantum physics in a single material.

Low-energy electrons escape from some materials via distinct “doorway” states, according to a study done by physicists at Austria’s Vienna Institute of Technology. The team studied graphene-based ...

A breakthrough from Canadian researchers brings us closer to robots that move with the power and grace of living organisms.