Scientists have packed 100,000 transistors into a single thread, thinner than a hair, unlocking smart clothes, VR gloves, and brain implants in one move.

Traditional chips depend on flat, inflexible wafers; the Fudan team replaced these with elastic substrates capable of hosting resistors, capacitors, diodes, and transistors. Once patterned, each ...

Researchers are increasingly framing quantum as moving from “science” to “engineering and scale”—a “transistor-era” shift.

Physicists found why holes move slower than electrons in silicon: not defects, but higher intrinsic mass, supporting ...

From computers to smartphones, from smart appliances to the internet itself, the technology we use every day only exists ...

This phenomenon became known as Moore’s Law, after the businessman and scientist Gordon Moore. Moore’s Law summarised the ...

Quantum technology has reached a turning point, echoing the early days of modern computing. Researchers say functional ...

The EPC2366 40 V eGaN® FET sets new benchmarks in performance, efficiency, and power density for next-generation power ...

I started making connections with how you put all the science together in the engineering and practical things and doing that with students. I called it this joy of discovery, driven by the joy of ...

This year’s top semiconductor stories were mostly about the long and twisting trips a technology takes from idea (or even raw material) to commercial deployment. I’ve been at IEEE Spectrum long enough ...

Scientists have shown that brain connectivity patterns can predict mental functions across the entire brain. Each region has a unique “connectivity fingerprint” tied to its role in cognition, from ...

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 ...