A new type of semiconductor that can store information using electric fields may lead to more energy-efficient computers, ultra-precise sensors, and technologies that convert signals between ...

Imagine having a super-powered lens that uncovers hidden secrets of ultra-thin materials used in our gadgets. Research led by University of Florida engineering professor Megan Butala enables a novel ...

Scientists have found that a “superatomic” material is the fastest and most efficient semiconductor ever. Taking advantage of a tortoise-and-hare mechanism, the new material can transport energy much ...

Two nanotechnology approaches converge by employing a new generation of fabrication technology. It combines the scalability of semiconductor technology with the atomic dimensions enabled by ...

Researchers have demonstrated that by using a semiconductor with flexible bonds, the material can be moulded into various structures using nano containers, without altering its composition, the ...

In the world of semiconductor nanodevices, where quantum effects and atomic positions dictate behavior, the demand for advanced characterization methods is on the rise, and spectroscopic techniques ...

Cadmium selenide nanoplatelets provide a promising foundation for the development of innovative electronic materials. Researchers around the world have taken a particular interest in these tiny ...

Researchers have achieved a new level of control over the atomic structure of a family of materials known as halide perovskites, creating a finely tuned "energy sandwich" that could transform how ...

Advanced microscopy proves that dilute elements in semiconductors have preferred arrangements, not just random distribution. (Nanowerk News) Inside the microchips powering the device you’re reading ...

A new class of semiconductors that can store information in electric fields could enable computers that run on less power, sensors with quantum precision, and the conversion of signals between ...

A technical paper titled “Atomic layer deposition for nanoscale oxide semiconductor thin film transistors: review and outlook” was published by researchers at Hanyang University. “In this review, to ...