In biology, defects are generally bad. But in materials science, defects can be intentionally tuned to give materials useful new properties. Today, atomic-scale defects are carefully introduced during ...

A new model measures defects that can be leveraged to improve materials' mechanical strength, heat transfer, and ...

RESEARCHERS at Massachusetts Institute of Technology (MIT) have developed an AI-based tool to help identify and measure ...

Los Alamos National Laboratory has developed a detector that provides ultra-sensitive elemental and chemical composition analysis. Los Alamos, NM, USA -- A team of researchers at Los Alamos National ...

Cadmium selenide nanoplatelets provide a promising foundation for the development of innovative electronic materials. Since the turn of the millennium, researchers around the world have taken a ...

A team of researchers, led by scientist Lin Zhou of Ames National Laboratory, has made important progress towards understanding the role of surface oxides in improving quantum computing circuits ...

In materials science, defects are usually seen as problems, unwanted microscopic features that degrade performance, reduce efficiency or shorten the lifespan of devices. But a recent breakthrough ...

Sometimes, in creating an alloy out of multiple metals, defects and structural instability can occur in the material. Now, researchers are harnessing those imperfections to make the material stronger ...

Advancements in nanotechnology fabrication and characterization tools have facilitated a number of developments in the creation of new two-dimensional (2D) materials and gaining and understanding of ...

Much of modern electronic and computing technology is based on one idea: add chemical impurities, or defects, to semiconductors to change their ability to conduct electricity. These altered materials ...