Accurately measuring small shifts in biological markers, like proteins and neurotransmitters, or harmful chemicals in the water supply, can identify critical problems before they have a chance to ...

Diamond field-effect transistors (FETs) represent a cutting-edge development in semiconductor technology, leveraging the exceptional thermal conductivity, high breakdown voltage, and chemical ...

Accurately measuring small shifts in biological markers, like proteins and neurotransmitters, or harmful chemicals in the water supply can identify ...

Carbon Nanotube Field-Effect Transistors (CNTFETs) represent a pivotal advancement in nanoelectronics, employing the extraordinary electrical properties of carbon nanotubes to achieve superior ...

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 ...

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 ...

A team of Chinese researchers has built a ferroelectric transistor with a gate length of just 1 nanometer that runs on 0.6 ...

A new publication from Opto-Electronic Science; DOI 10.29026/oes.2024.230046 discusses photo-driven Fin Field-Effect Transistors. Infrared detectors are the core components of infrared detection ...

Shrinking chips are hitting a wall. Traditional transistors, the workhorses of modern electronics, are struggling to switch faster without guzzling power. A rival design, the tunnel field-effect ...