Many displays found in smartphones and televisions rely on thin-film transistors (TFTs) made from indium gallium zinc oxide ...

Nano-scale cellular structures boost 3D printed metal strength according to research from the University of Osaka.

Insights into atomic-scale defects may enable next-generation thin-film transistors for smartphones, televisions, and ...

For over two decades, physicists have been working toward implementing quantum light storage—also known as quantum memory—in ...

A research group conducted quantitative individual analysis on the contribution to the strength of the micrometer-scale ...

Paving the way to custom function control that goes beyond conventional mechanical functionsKey Findings Focusing on the ...

New research led by the University of Liverpool in collaboration with the University of New South Wales (Sydney, Australia) ...

For more than a century, the well-known 18-electron rule has guided the field of organometallic chemistry. Now, researchers ...

High quality single crystals of EuInGe were grown from the reaction run with excess indium. X-ray diffraction investigations showed that EuInGe crystallizes with a pronounced subcell structure, ...

We demonstrate thermally tunable plasmonic structures base on a metal-insulator transition material with active control over their resonant transmission induced by surface plasmon polaritons (SPPs).

To find the driving force of charge trapping effect of the Si ferroelectric field effect transistor (FeFET), we propose a physics-based model. This effect occur ...

UF engineers, backed by DARPA and NASA, are perfecting laser-forming techniques that let metal sheets fold themselves into giant solar arrays, antennas, and even space-station parts right in ...