US Army Research Laboratory developed nanostructured copper alloy with exceptional thermal stability and mechanical strength.

Designed a "core-shell structure catalyst" using cost-effective ruthenium to improve its potential for commercialization.

The approach stabilizes rubidium in wide-bandgap perovskites, minimizing non-radiative recombination and pushing efficiency to new heights.

Humanity has been creating new materials since the age of bronze (which does not occur naturally) and since the breakthrough ...

There are many ways to describe Wheeling High School’s recent hosting of the Illinois Junior Academy of Science Region 6 ...

Researchers at EPFL have found a way to dramatically reduce energy loss and boost efficiency in perovskite solar cells by ...

Researchers have expanded the potential of carbon capture technology that plucks CO2 directly from the air by demonstrating that there are multiple suitable and abundant materials that can facilitate ...

An international team has merged two lab-synthesized materials into a synthetic quantum structure once thought impossible to exist and produced an exotic structure expected to provide insights that ...

Controlling the arrangement of atomic vacancies offers a new way to adjust electronic, magnetic, thermal, and hydrogen ...

Moon dust is quickly becoming a magic material, from which oxygen and other elements such as titanium can be extracted, that ...

The melting of crystals is the process by which an increase in temperature induces the disruption of the ordered crystalline ...