Carbon nanotube field-effect transistors (CNTFETs) represent a transformative advancement in nanoscale electronics, exploiting the unique electrical and mechanical properties of carbon nanotubes.

A graphene layer consists of carbon atoms linked by covalent bonds, forming a honeycomb structure. Its excellent electron mobility, chemical and physical stability, electrical and thermal conductivity ...

Transistors are tiny electronic components that act as switches and amplifiers, and they dwell at the heart of modern technology. In simple terms, a transistor can turn a flow of electricity on or off ...

What are Organic Field-Effect Transistors? Organic field-effect transistors (OFETs) are a type of transistor that uses an organic semiconductor material as the active layer. Unlike conventional ...

A research team has developed an n-channel diamond MOSFET (metal-oxide-semiconductor field-effect transistor). The developed n-channel diamond MOSFET provides a key step toward CMOS (complementary ...

With the right mix of materials, TFETs promise cooler, smaller, and more efficient circuits for everything from the Internet of Things to brain-inspired computers. But before they can leave the lab, ...

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 ...

A technical paper titled “CFET Beyond 3 nm: SRAM Reliability under Design-Time and Run-Time Variability” was published by researchers at TU Munich and IIT Kanpur. Find the technical paper here. May ...

Field-effect transistors (FETs) are the cornerstone of modern electronic devices, providing the essential functionality for digital logic, analog processing and power management. The fundamental ...

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(Left) Atomic force microscope image of diamond epilayer surface morphology. (Middle) Optical microscope image of the diamond MOSFET. (Right) Performance of the MOSFET measured at 300°C. The drain ...