A new breakthrough could make chips smaller, faster, and use less energy even for cold quantum devices. Find out more!

The smaller electronic components become, the more complex their manufacture becomes. This has been a major problem for the ...

Our microelectronics relies on doped semiconductors. But there is an alternative: Instead of the semiconductor parts ...

A self-sensing and heating transistor thermostat for a 16-bit DAC voltage reference to stabilize its temperature.

A new magnetic transistor switches current ten times more strongly than silicon chips while operating at lower energy, and ...

Scientists from the Moscow Institute of Electronic Technology (MIET) have developed a precise method to control the operation of microchips in the extreme conditions of space. The breakthrough will ...

Recent technological advances have opened new possibilities for the development of advanced biomedical devices that could be implanted inside the human body. These devices could be used to monitor ...

Phononic circuits are emerging devices that can manipulate sound waves (i.e., phonons) in ways that resemble how electronic ...

Enhancing power density inevitably means dealing with heat. Fortunately, advances in material sciences, especially thermal ...

If there’s one lesson to be learned from [Aled Cuda]’s pulsed laser driver, it’s that you can treat the current limits on electronic components as a suggestion if the current duration is measured ...

MIT engineers developed a magnetic transistor that could lead to smaller, faster, and more energy-efficient electronics, using a magnetic semiconductor material.

A single organic device reconfigures as transistor, rectifier and logic gate, offering compact circuits with higher ...