UChicago Pritzker Molecular Engineering researchers created a "quantum-inspired” revolution in microelectronics, storing classical computer memory in crystal gaps where atoms should be.

This finding confirms that quasicrystals are shaped by hidden higher-dimensional physics, not just random patterns. A ...

Porous organic crystals with superior properties as CO2 adsorbents were created by researchers at Institute of Science Tokyo.

Researchers are breaking new ground with halide perovskites, promising a revolution in energy-efficient technologies. By ...

A research team has successfully developed a new composition and processing technology for transparent plasma-resistant ...

Porous organic crystals with superior properties as CO2 adsorbents were created by researchers at Institute of Science Tokyo.

Captain America’s star-spangled shield can stand up against the universe’s most powerful forces all thanks to vibranium. This ...

The material withstands 58 percent more stress than diamonds, and could have "remarkable mechanical properties".

One strategy for identifying domains involves shining a light across the material in one direction and then again in the ...

University of Chicago Pritzker School of Molecular Engineering (UChicago PME) researchers have explored a "quantum-inspired" technique to make the "ones" and "zeroes" for classical computer memory ...

Researchers have made a breakthrough in the development of 'life-like' synthetic materials which are able to move by themselves like worms. Scientists have been investigating a new class of materials ...