A transdisciplinary Northwestern University research team has developed a revolutionary transistor that is expected be ideal for lightweight, flexible, high-performance bioelectronics. The ...

Cornell researchers have developed a new transistor architecture that could reshape how high-power wireless electronics are engineered, while also addressing supply chain vulnerabilities for a ...

The team’s wooden transistor has a few advantages that might help it find eventual applications. Being biodegradable could help reduce the e-waste problem, and the large conductive channels could let ...

A new type of transistor could bring about a bevy of innovative electronic applications, ranging from wearables to implants to IoT devices, due to the tiny amount of power it uses. Developed by ...

A transistor is a tiny but powerful electronic component that acts like a switch or an amplifier. It is made from a semiconductor material, usually silicon, and has three legs for connection to ...

On a physical level, a transistor’s internal functioning is very complex, but, in practice, using it in some simple experiments is quite easy and affordable for everyone. A transistor allows to create ...

What many engineers once saw as a flaw in organic electronics could actually make these devices more stable and reliable, ...

As the industry advances into the angstrom era, gate-all-around architectures combined with atomic-scale materials engineering provide a sustainable path forward. The demands of AI and edge computing ...

Traditional CMOS chips are fabricated by applying and then etching repeated layers of different materials, applied to a wafer ...

Cornell engineers have built a next-gen transistor on bulk aluminum nitride that runs cooler, handles higher power, and slashes gallium dependence, marking a potential shift in how future 5G, 6G, and ...