Researchers developed a new graphene-based nanoelectronics platform compatible with conventional microelectronics manufacturing, paving the way for a successor to silicon. A pressing quest in the ...

Flexible and adaptive microelectronics is considered an innovation driver for new and more effective biomedical applications. These include, for example, the treatment of damaged nerve bundles, ...

Before Vasil Yordanov became Purdue University’s first graduate in the online Master of Science in Microelectronics and Semiconductors program, he was a budding physicist and researcher in search of a ...

The development of integrated circuits and semiconductor devices has revolutionized our society from communication to information storage to transportation and media. The creation and implementation ...

BUFFALO, N.Y. — Nanoelectronics deal with extremely small electronic components — transistors, sensors and circuits that can fit on the tip of a needle. This technology powers our everyday lives ...

When solids are reduced to the nanometer scale, they exibit new and exciting behaviours which constitute the basis for a new generation of electronic devices. Nanotechnology for Microelectronics and ...

Since miniaturization in microelectronics is starting to reach physical limits, researchers seek new methods for device fabrication. One candidate is DNA origami in which strands of the biomolecule ...

In modern electronics, components are being designed on increasingly tiny scales. As we approach dimensions of one billionth of a metre ­ the nanometre scale ­ it is now appropriate to talk about ...

A pressing quest in the field of nanoelectronics is the search for a material that could replace silicon. Graphene has seemed promising for decades. But its potential faltered along the way, due to ...