Molecular electronics is a branch of nanotechnology that focuses on using individual molecules or nanoscale molecular structures as electronic components to create miniaturized circuits and devices.

A special edition article titled “Electronic Circuits made of 2D Materials” was just published by Dr. Mario Lanza, KAUST Associate Professor of Material Science and Engineering, and Iuliana Radu, ...

Circuit protection devices are safety components used in a variety of applications, ranging from smartphones and laptops to medical and wireless communications equipment. These components include ...

Transparent electronics refer to the emerging field of developing electronic devices and circuits that are virtually invisible to the human eye. By using transparent materials such as conductive ...

Just when you thought handheld electronic devices couldn’t get any smaller, a new breakthrough in semiconductor construction may be the key to miniaturizing technology even further. Researchers from ...

A variety of linear models are available to represent common active electronic devices such as transistors and vacuum tubes. Devices operating under large-signal conditions often require nonlinear ...

Unpacking the challenges with high-voltage power conversion and how SiC fits in. The pivotal advantages of SiC over traditional silicon in next-gen power converters. Rethinking circuit design for ...

Inside every smartphone, smartwatch, and medical sensor, a thin green slab quietly dominates the device’s climate impact. Researchers now warn that the printed circuit boards tying our chips together ...