A revolution is coming in flexible electronic technologies as cheaper, more flexible, organic transistors come on the scene to replace expensive, rigid, silicon-based semiconductors, but not enough is ...

New vertical device architecture promises stable, ultra-dense semiconductor stacking for future AI and high-performance ...

A team of engineers from the University of Alberta (U of A) has developed a transistor that could be used to develop flexible electronic devices. Thin film transistors (TFT) are commonly used for ...

Three separate research teams have reported techniques that directly attack one of the hardest problems in shrinking transistors and wiring below 10 nanometers: the sharp rise in electrical resistance ...

Researchers have developed a series of techniques to build carbon nanoribbons atom by atom, engineering their electronic properties from the ground up rather than carving them from bulk material.

Transistors have long served as the building blocks of microelectronics. More recently, microchip lasers have been emerging as cornerstones of light-based circuitry, or photonics. Now, engineers have ...

How do you pack more power into an electric car? The answer may be electronic transistors made of gallium oxide, which could enable automakers to boost energy output while keeping vehicles lightweight ...

Someday, the very fabric of your shirt might contain flexible electronic devices that monitor your vital signs or enable you to dial in the color or pattern you want to wear that day. Futuristic ...

A transistor is a tiny but powerful electronic component that acts like a switch or an amplifier. It is made from a semiconductor material, usually silicon, and has three legs for connection to ...