A team of researchers has successfully predicted abnormal grain growth in simulated polycrystalline materials for the first time -- a development that could lead to the creation of stronger, more ...

A research team develops a new alloy that maintains tensile properties from -196 degrees Celsius to 600 degrees Celsius.

Led by Professor Cécile Chazot, the summit advanced MICRO’s mission to support students from schools without dedicated ...

A new class of semiconductors that can store information in electric fields could enable computers that run on less power, ...

A team of Lehigh University researchers has successfully predicted abnormal grain growth in simulated polycrystalline ...

A long-elusive, hypothetical subatomic particle called the axion can be simulated and potentially detected in a type of thin material.

Jonathan Larson, Ph.D., assistant professor of chemistry & biochemistry, shares groundbreaking research with leaders from industry, academia & government at Volta Foundation’s Battery Forum ...

Jonathan Larson, Ph.D., assistant professor of chemistry and biochemistry, shares insights from his groundbreaking research ...

Kanazawa University and colleagues have achieved a breakthrough in understanding sperm DNA packaging. Using high-speed atomic ...

From bioengineered implants and AI-guided injectables to scarless surgery and gene editing, here’s what cosmetic work will ...

The Earth’s magnetic field quietly supports life on the planet and now, for the first time, its invisible powers have been used to create new nano particles and materials. Scientists at Flinders ...

Scientists in Japan have uncovered a surprising twist, literally, in how molecules organize themselves. By introducing tiny leftover fragments from previous assemblies, they discovered a way to flip ...