Engineers at Stanford have developed a new component to help stretch the potential of wearable electronics. A team of researchers has created a flexible transistor that can be stretched to double its ...

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

Key opportunities in the plastic transistors market include growth in wearable electronics, IoT device integration, and ...

(Nanowerk Spotlight) Thin-film transistors (TFTs) and associated circuits are of great interest for applications including displays, large-area electronics and printed electronics (e.g.

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 market offers opportunities in high-impedance, low-noise applications, driven by growth in consumer electronics, ...

THE next generation of wearable electronics could be a lot more comfortable, thanks to transistors made from cotton fibres. Such transistors may soon make for wearable electronics as comfy as your ...

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 ...

Scientists from Lucent Technologies' Bell Labs have created organic transistors with a single-molecule channel length, setting the stage for a new class of inexpensive and easily assembled molecular ...

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 ...

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 ...