Silicon nanowires, prepared by electroless chemical etching, are used to fabricate dual-gate field-effect transistors. The diameters of the nanowires vary from 40-300 nm, with a maximum aspect ratio ...

A research team has synthesized three-dimensionally shaped molecules containing an internal twist and shown that they possess ...

Self-driving cars that glide through cities without ever hitting traffic, virtual doctors diagnosing you instantly at home, and the ability to feel the touch of someone thousands of miles away may ...

Integrated circuits have evolved from simple microchips to complex, nanoscale marvels, driving advances in computing, ...

Discover how Penn State’s 2D CMOS computer breakthrough paves the way for ultra-efficient, atomic-scale electronics beyond silicon.

With the goal of achieving high-performance electrically stable organic field-effect transistors ... † POSTECH Organic Electronics Laboratory, Polymer Research Institute, Department of Chemical ...

Saptarshi Das and Subir Ghosh’s research represents a major leap toward building thinner, faster and more energy-efficient ...

In a bold challenge to silicon s long-held dominance in electronics, Penn State researchers have built the world s first ...

"Silicon has driven remarkable advances in electronics for decades by enabling continuous miniaturization of field-effect transistors ... disulfide and tungsten diselenide transistors." The team used ...

Penn State researchers have built the world’s first CMOS computer entirely from two-dimensional materials, marking a leap beyond silicon.

Organic semiconducting single crystals are ideal building blocks for organic field-effect transistors (OFETs) and organic photodetectors (OPDs) because they can potentially exhibit the best charge ...