Nearly every piece of technology you use—from smartphones to computers—relies on one revolutionary component: the transistor.

Researchers develop a 3D transistor stacking process that boosts performance in flexible and wearable electronics without ...

Put the inventor of the light-emitting diode and the maker of the world's fastest transistor together in a research laboratory and what kinds of bright ideas might surface? One answer is a ...

A transdisciplinary Northwestern University research team has developed a revolutionary transistor that is expected be ideal for lightweight, flexible, high-performance bioelectronics. The ...

Researchers have developed a transistor with excellent stability and performance for use on plastic electronics. In addition, it can be manufactured at relatively low temperatures in a regular ...

The new technology is more sustainable than existing transistor manufacturing technologies because the materials are fully ...

The new fabrication technique for all-2D transistors on flexible substrates offers a sustainable alternative, boosting ...

The team’s wooden transistor has a few advantages that might help it find eventual applications. Being biodegradable could help reduce the e-waste problem, and the large conductive channels could let ...

A University at Buffalo team has proposed a new form of power MOSFET transistor that can handle incredibly high voltages with minimal thickness, heralding an efficiency increase in the power ...

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 ...

On a physical level, a transistor’s internal functioning is very complex, but, in practice, using it in some simple experiments is quite easy and affordable for everyone. A transistor allows to create ...