Two-dimensional materials are only a few atoms thick yet hold great promise for the electronics of tomorrow. Because they are so thin, they can be piled in strange, twisted configurations that yield ...

Department of Macromolecular Science, Graduate School of Science, Osaka University, Toyonaka, Osaka 560-0043, Japan, Advanced Science Research Center, Japan Atomic Energy Institute, Tokai-mura, ...

The discovery could significantly reduce the production costs of fuels, chemicals, and materials. A research team from the ...

Cryo-electron microscopy and tomography are transforming structural biology, offering unprecedented insights into ...

Quantum networks, systems consisting of connected quantum computers, quantum sensors or other quantum devices, hold the ...

A team of researchers from the University of Minnesota Twin Cities College of Science and Engineering and the University of ...

University at Buffalo researchers are theorizing that core electron bonding may not always require as much pressure as ...

Research suggests some metals’ semicore electrons may be more active on Earth’s surface than previously thought.

Synthetic diamond research examines organic molecular interactions under the microscope. Scientists have long developed different techniques to produce artificial diamonds, but a new method from ...

Nobel Prize in Physics is a tribute to the scientists who first discovered quantum behaviors in a macroscopic electrical ...

“Negative time” might sound like science fiction, but an international team of theorists and experimentalists has determined that a photon can, in fact, spend a negative amount of time in an excited ...