Researchers propose 3D semiconductor architectures using 2D semiconductor materials for better performance and scalability ...

In a significant advancement for semiconductor technology, ECE's Prof. Kaustav Banerjee , co-authors Arnab Pal & Wei Cao and researchers have unveiled novel three-dimensional (3D) transistors ...

Peking University has published its findings on a wafer-scale 2D GAAFET in Nature, pointing a new path into the Angstrom era ...

Unlike with BJT transistors that need a constant current flow, you only need to charge a gate once for the FET to remain open for a fair bit – and it’s such a small amount of charge that you ...

Cambridge GaN Devices has patented a technique for lowering losses in 100kW+ IGBT-based vehicle traction drives, at lower cost than all-silicon-carbide ...

Gordon Moore's prediction made over 40 years ago, that the number of transistors in an integrated circuit would double roughly every 24 months, continues to be the guiding principle of the ...

On the other hand, all that's really needed is a single electron at a time. A transistor small enough to operate with only one electron would be phenomenally small, yet it is theoretically possible.

"For years we have seen limits to how small transistors can get," said Moore in an Intel press release. "This change in the basic structure is a truly revolutionary approach, and one that should ...

A larger polysilicon (gate) critical dimension (CD) variation affects the product performance, power and leakage. Deep sub micron technology nodes have very small transistor dimensions so it is very ...

The original transistors were small cylinders, a bit larger than a pencil eraser. Over the years, scientists and engineers have been able to make transistors tinier and tinier. With the invention ...

While it is hard to imagine today, securing a license to produce transistors was difficult in the early days. What’s worse is, even with the license, it was not feasible to use the crude devices ...