Cornell researchers have developed a new transistor architecture that could reshape how high-power wireless electronics are ...

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

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 ...

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

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 ...

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 ...

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

How can the performance of flexible electronics be improved through the unlikeliest changes? This is what a recent study ...

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 ...

Cornell engineers have built a next-gen transistor on bulk aluminum nitride that runs cooler, handles higher power, and ...