A new study conducted at the University of Vienna, the Max Planck Institute for Intelligent Systems in Stuttgart, and the ...

A new article describes a fingernail-sized machine that can twist thin materials at will, replacing the need to fabricate twisted devices one by one.

Demis John , process scientist manager of the Nanofab explained that once you learn how to make one microchip, you can make any kind of microchip, with the right equipment. The lab has more than $60 ...

Scientists demonstrate efficient generation of spin waves with high amplitudes using alternating currents in a simple ...

Physicists present a nanometer-sized light antenna with electrically modulated surface properties – a breakthrough that could ...

During her presentation, titled “Transforming our World for a Better Tomorrow,” Margulies introduced NSF’s engineering ...

U.S. Senate Majority Leader Chuck Schumer announced $3.2 million in federal funding to boost New York-based programs to ...

In a recent Science Advances article, researchers explored two-dimensional silk fibroin films derived from Bombyx mori silk, ...

With the InnovationAus Awards for Excellence finalists now locked in for 2024, the voting has now open to the public to find ...

A recent paper published in Nature describes the Harvard University team's fingernail-sized device, which can twist thin ...

According to a study published in Science Advances, physicists from Würzburg demonstrated a nanometer-sized light antenna ...