Materials are fundamental to every energy technology. Solar panels, batteries, catalysts, fuel cells, LEDs, insulation, electrodes, in all of these applications the performance, cost, and durability ...

Machine learning is transforming many scientific fields, including computational materials science. For about two decades, scientists have been using it to make accurate yet inexpensive calculations ...

Oak Ridge National Laboratory is quietly tackling one of fusion energy’s toughest engineering problems: turning raw neutron bombardment into manageable heat. At the center of that effort is a new ...

Proteins are the building blocks of life. These biomolecules comprise chains of amino acids that fold into precise shapes to perform specific jobs in nature. But these elegant structures form only ...

High-entropy alloys are promising advanced materials for demanding applications, but discovering useful compositions is difficult and expensive due to the vast number of possible element combinations.

Tungsten carbide–cobalt (WC–Co) is prized for its hardness, but that same property makes it unusually difficult to shape. The ...

How can generative AI help scientists find new material synthesis paths? This is what a recent study published in Nature Computational Science hopes to add | Technology ...

SMX enhances gold, silver, and steel by integrating advanced material science with digital traceability technology. By embedding verifiable identities directly into materials, it strengthens ...

Modern industry relies heavily on catalysts, which are substances that speed up chemical reactions. They're vital in ...

Advanced materials are a class of innovative substances deliberately engineered to possess superior properties, enabling them to deliver exceptional performance. The advancements in materials science ...

The Materials Science & Engineering minor is designed for students who want to expand their career opportunities and open new doors in the growing, interdisciplinary materials science field at the ...