Researchers unveil 3D transistors using 2D semiconductors, enabling energy-efficient, high-performance electronics with unprecedented miniaturization. (Nanowerk News) In a significant advancement for ...

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

(Nanowerk Spotlight) The coming age of wearable, highly flexible and transparent electronic devices will rely on essentially invisible electronic and optoelectronic circuits. In order to have close to ...

Researchers from the Delft University of Technology (TU Delft) have investigated how power electronics may be embedded in solar cells and proposed several design options for PV devices integrating ...

Researchers have used nanotechnology to create transparent transistors and circuits, a step that promises a broad range of applications, from e-paper and flexible color screens for consumer ...

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 ...

Researchers at ETH are developing electronic components that are thinner and more flexible than before. They can even be wrapped around a single hair without damaging the electronics. This opens up ...

Physicists successfully controlled an electrical current using the "spin" within electrons -- a step toward building an organic "spin transistor": A plastic semiconductor switch for future ultrafast ...

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 ...

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 ...