A major step forward in organic electronics Complementary logic circuits based on high-performance n-type organic electrochemical transistor Date: January 12, 2018 Source: Linköping University ...

To solve this problem, the research group developed a threshold control technique that allowed them create hydrogenated diamond not and nor logic circuits composed of D-mode and E-mode MOSFETs. The ...

Direct-Write Fabrication of Individual Field-Effect Transistors Using a novel strategy, we have successfully demonstrated the resist-free fabrication of both depletion-mode (D-mode) and ...

Complementary circuits are made using a combination of transistors, which have been a long-term area of research in organic electronics.

Complementary (or coined with a more popular term, CMOS) logic gates feature two different kinds of transistors (i.e., n-channel and p-channel) controlled by opposite logic that enables extremely ...

"This approach permits straightforward integration of an arbitrary number of complementary p- and n-type transistors into the same quantum dot layer prepared as a continuous, un-patterned film via ...

Behind its claims are the company’s novel tunnelling transistors (now branded Zpolar), a manufacturing process (dubbed Bizen) which makes the transistors on old CMOS fabs, and a few-transistor ...

A technical paper titled “Analysis of Logic-in-Memory Full Adder Circuit With Floating Gate Field Effect Transistor (FGFET)” was published by researchers at Konkuk University, Korea National ...