Atomic-scale imperfections in graphene transistors generate unique wireless fingerprints that cannot be copied or predicted, ...

Why silk is being used for bio-compatible transistors. How the silk is transformed to develop the transistor function. The two types of operation provided by the silk-based transistor. Silicon and ...

For decades, chipmakers have squeezed more computing power out of silicon by shrinking transistors, but that strategy is ...

Transistors are tiny components that can turn electrical signals on and off at incredible speeds. In this video, you'll learn ...

Traditional CMOS chips are fabricated by applying and then etching repeated layers of different materials, applied to a wafer of ultra-pure silicon. The bottom-most layer, also known as the front end ...

Rapid development of artificial intelligence requires the implementation of hardware systems with bioinspired parallel ...

Tellurium nanowire transistors switch between boosting and suppressing their light response through voltage alone, enabling ...

Historical data from the BBC Archive, Radio Museum, and other communication history sources highlight major milestones: 1947: ...

Imagine wearable health sensors, smart packaging, flexible displays, or disposable IoT controllers all manufactured like ...

Diamond color centers are a well researched field, but using them at scale as qubits was out of reach until recently. Their ...

(NASDAQ: SMTK) shares were up a bit, Wednesday. The company, developing a new class of organic semiconductor technology, today announced that it has created the world's first all-organic-transistor ...

A new microchip-sized device could dramatically accelerate the future of quantum computing. It controls laser frequencies ...