The work by researchers in the Center for Advanced Semiconductor Technologies could lead to energy-efficient microelectronics ...

Nanoelectronics deal with extremely small electronic components—transistors ... materials to replace standard silicon-based semiconductors. "Our work investigates how emerging 2D materials ...

a scientist working at the Massachusetts Institute of Technology’s Research Laboratory of Electronics. One way around this problem is to replace silicon with graphene-like 2D materials that ...

Unlike conventional transistors that rely on inorganic semiconductors like silicon, OFETs leverage the unique properties of organic materials to enable novel applications in flexible, printable, and ...

The use of printing technologies for flexible electronics has ... nitride inks in printed transistors. Professor Cinzia Casiraghi, Professor in Nanoscience This paper is amongst the first reports on ...

These transistors, introduced in a paper published in Nature Electronics, were created via a fabrication strategy that leverages the doping and thickness control of two 2D materials, namely ...

carbon-based transistors and photonic devices. Researching wearable antennas for the military by printing small conductive patterns on uniforms. Compounding and processing of new substrates for ...

Nanoelectronics power our everyday lives, from smartphones and computers to medical devices. This field focuses on creating ...

UMass Lowell combined competences is a catalyst for flexible hybrid electronics developments throughout the value chain from FHE materials such as compounding and processing of new substrates, to ...

His current research interests include organic/plastic/flexible electronics ... He has also worked with 2D materials, transparent electrodes, thin-film transistors, and topological insulators.

The work, from researchers in the UB Center for Advanced Semiconductor Technologies, could lead to energy-efficient ...