Researchers have developed a high-performance ultrathin polymeric insulator for field-effect transistors. The researchers used vaporized monomers to form polymeric films grown conformally on various ...

The only catch? Graphene didn’t naturally grow on the insulating substrates absolutely necessary to incorporate it into electronic devices. Instead, it crystallized readily on metals incompatible with ...

NIST measurements show that interactions of the graphene layers with the insulating substrate material causes electrons (red, down arrow) and electron holes (blue, up arrow) to collect in “puddles”.

A new study reveals that insulating buffer layers are no longer needed for ultrathin magnetic racetrack devices, unlocking new paths for seamless integration with functional substrates. (Nanowerk News ...

A new study reveals that insulating buffer layers are no longer needed for ultrathin magnetic racetrack devices, unlocking new paths for seamless integration with functional substrates. Modern ...

The power electronics industry and the semiconductor industry, inseparably intertwined with one another, are facing unprecedented efficiency, cost, construction and thermal challenges which provide ...

Interest in printed electronics has surged in the past decade as a way to mass produce RFID tags and sensors at low cost. But printing digital logic devices on a substrate today involves multiple ...

Using an initiated chemical vapor deposition technique, the research team created an ultrathin polymeric insulating layer essential in realizing transistors with flexibility and low power consumption ...