Understanding the factors underpinning device switching times is crucial for the implementation of organic electrochemical transistors in neuromorphic computing, bioelectronics and real-time sensing ...

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 ...

Semiconductor transistors now switch states in single-digit picoseconds, enabling processors to flip billions of logic gates every second without a single mechanical component. Research on 0.07-micron ...

We demonstrate two general classes of magnetophoretic transistors, called the “trap” and the “repel-and-collect” transistors, capable of switching single magnetically labeled cells and magnetic ...

Hardly a day goes by without a top-level research group announcing some kind of graphene-related breakthrough, but this one's a biggy: Researchers at the University of Erlangen-Nuremberg, Germany have ...

Neubiberg, Germany: The 650V CoolMOS C6/E6 series of high-performance power MOSFETs combine the advantages of modern superjunction (SJ) devices with easy control of switching behaviour as well as high ...

In a nutshell: Back in 2021, a team from the Massachusetts Institute of Technology made waves by creating an entirely new type of ferroelectric material. Now, those same researchers have one-upped ...

Why it matters: Silicon transistors are great, but just like any other object in the physical world, they are held back by a few limitations. The laws of physics put a bottleneck on performance and ...

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While many research efforts are underway to develop active devices that can function in the challenging terahertz spectrum, others are leapfrogging to try to get some devices operate into the ...

Researchers have created a new theoretical framework that shows how memory-preserving "memtransistors" could overcome the intrinsic limits in efficiency faced by conventional semiconductor transistors ...