A way to electrically modify the chirality of organic–inorganic hybrid materials, in which chiral molecules adsorb onto ...

A new article examines the history of computing to help outline the direction of quantum research. It reports that quantum ...

I attended an AI conference in Seattle and participated in the 2025 IEDM and its celebration of the 100th anniversary of the ...

Bell Laboratories, one of the world’s largest industrial laboratories and now part of Lucent Technologies, was originally the research and development arm of the giant telephone company American ...

For decades, chipmakers have squeezed more computing power out of silicon by shrinking transistors, but that strategy is ...

There was no doubt about it, point-contact transistors were fidgety. The transistors being made by Bell just didn't work the same way twice, and on top of that, they were noisy. While one lab at Bell ...

Beyond the power variant, it sometimes seems as though we rarely encounter a discrete transistor these days, such has been the advance of integrated electronics. But they have a rich history, going ...

When we were in school, every description of how transistors work was pretty dry and had a lot of math involved. We suppose you might have had a great instructor who was able to explain things more ...

What many engineers once saw as a flaw in organic electronics could actually make these devices more stable and reliable, ...

Shrinking silicon transistors have reached their physical limits, but a team from the University of Tokyo is rewriting the rules. They've created a cutting-edge transistor using gallium-doped indium ...

Cornell engineers have built a next-gen transistor on bulk aluminum nitride that runs cooler, handles higher power, and slashes gallium dependence, marking a potential shift in how future 5G, 6G, and ...