This video explains how transistors work as switches and amplifiers in electronic circuits. Transistors control the flow of current and enable signal processing in everything from small devices to ...

The ability to make a very miniature on/off switch changed the world. These tiny switches, known as transistors, make up the basis of all modern computing—they drive your cell phones, your bank ...

To meet the growing demands of flexible and wearable electronic systems, such as smart watches and biomedical sensors, electronics engineers are seeking high-performance transistors that can ...

Researchers unveil a roadmap for 2D transistor gate stack design, marking a key step toward ultra-efficient chips that could replace silicon technology. For decades, silicon-based CMOS technology has ...

The first transistors were point contact devices, not far from the cats-whiskers of early radio receivers. They were fragile and expensive, and their performance was not very high. The transistor ...

On Oct. 3, 1950, three scientists at Bell Labs in New Jersey received a U.S. patent for what would become one of the most important inventions of the 20th century — the transistor. John Bardeen, ...

The smaller electronic components become, the more complex their manufacture becomes. This has been a major problem for the chip industry for years. At TU Wien, researchers have now succeeded for the ...

Abstract: The demonstration of organic bipolar transistor in 2022 completed the missing puzzle in the organic transistor development roadmap. The major obstacle was that the typical amorphous organic ...

A tiny new crystal-based transistor could be the key to faster, more reliable AI chips—leaving traditional silicon designs in the dust. Credit: Shutterstock In a potential turning point for ...

Advanced Micro Devices Inc. today introduced a new line of artificial intelligence chips that it says can outperform Nvidia Corp.’s Blackwell B200 at some tasks. The Instinct MI350 series, as the ...

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 ...