Researchers believe they can fit 25 million Josephson junctions — a useful component for quantum computing — on one two-inch wafer with this approach.

Scientists have developed a new material that converts motion into electricity (piezoelectricity) with greater efficiency and ...

Superconductive materials can conduct electricity with no resistance, but typically only at very low temperatures. Realizing ...

Current Degradation in Ultra-Scaled Nanosheet FETs with S/D Underlap Doping” was published by researchers at Global TCAD ...

A South Korean research team has, for the first time, uncovered the molecular-level mechanism by which trace amounts of impurities—known as dopants—can reverse charge polarity in organic polymer ...

A superconductor made from germanium, a material commonly used to build computer chips, could one day create better and more reliable quantum computers. Superconductors are materials that conduct ...

Using lasers to dope silicon is faster, cleaner, and more precise than traditional methods. It’s a glimpse into how high-tech manufacturing keeps pushing the limits of what chips can do. This is the ...

An aerial view of solar panels on a mountainside. Microquanta Semiconductor installed what it calls the world’s largest perovskite-based solar farm on a mountainside in Lishui, China. Credit: ...

Experts from around the world have met in Japan to plan safer and more sustainable ways to operate research reactors, which play an essential part of the future of nuclear medicine, semiconductors and ...

Axcelis Technologies stands to benefit from the semiconductor industry's demand for advanced ion implantation, driven by smaller node geometries and new device architectures. Despite recent cyclical ...

[ProjectsInFlight] has been on a mission to make his own semiconductors for about a year now, and recently shared a major step toward that goal: homemade spin-on dopants. Doping semiconductors has ...