Many of the technologies we rely on, from smartphones to wearable devices and more, utilize fast wireless communications. What might we accomplish if those devices transmitted information even faster?

(Nanowerk News) Your phone may have more than 15 billion tiny transistors packed into its microprocessor chips. The transistors are made of silicon, metals like gold and copper, and insulators that ...

LONDON — Researchers at IMEC are looking at the use of silicon transistors in the sub-threshold region of their operation as a way of pursuing ultra-low power goals. A future SoC for biomedical ...

(Nanowerk News) A research team consisting of NIMS and the Tokyo University of Science has developed the fastest electric double layer transistor using a highly ion conductive ceramic thin film and a ...

Adding to the company's line of low-saturation, high-current SOT23FF transistors, the ZXTP25020CFF and ZXTP19020DFF PNP devices reduce their board height to less than 1 mm. Both promise to reduce ...

Assuming position as the smallest digital transistors on the market, the FJY families are rated at 200 mW and manage to squeeze a resistor bias network into their 1.7 mm x 0.98 mm x 0.78 mm SOT523F ...

DUBLIN, Jan. 31, 2020 /PRNewswire/ -- The "Power Transistors - Market Analysis, Trends, and Forecasts" report has been added to ResearchAndMarkets.com's offering. The Power Transistors market ...

Toshiba has succeeded in fabricating room temperature single electron transistor (SET) devices by treating a silicon surface with alkaline-based solutions. Experiments with ultra-thin silicon on an ...

A transistor that could be the key to higher bandwidth wireless communications...while requiring less battery life. A UD research team has created a high-electron mobility transistor with ...