A multi-scale modeling of junctionless field-effect transistors

Junctionless ferroelectric field effect transistors based on ultrathin silicon nanomembranes

The paper reported the fabrication and operation of nonvolatile ferroelectric field effect transistors (FeFETs) with a top gate and top contact structure. Ultrathin Si nanomembranes without source and drain doping were used as the semiconducting layers whose electrical performance was modulated by the polarization of the ferroelectric poly(vinylidene fluoride trifluoroethylene) [P(VDF-TrFE)] th...

Scaling junctionless multigate field-effect transistors by step-doping

Articles you may be interested in Graphene nanopore field effect transistors Self-aligned graphene field-effect transistors with polyethyleneimine doped source/drain access regions Appl.

Modeling of Carbon Nanotube Field Effect Transistors

Analysis and study of geometrical variability on the performance of junctionless tunneling field effect transistors: Advantage or deficiency?

This study investigates geometrical variability on the sensitivity of the junctionless tunneling field effect transistor (JLTFET) and Heterostructure JLTFET (HJLTFET) performance. We consider the transistor gate dielectric thickness as one of the main variation sources. The impacts of variations on the analog and digital performance of the devices are calculated by using computer aided design (...

Modeling of Carbon Nanotube Field-Effect Transistors

In this thesis, models are presented for the design and analysis of carbon nanotube field-effect transistors (CNFETs). Such transistors are being seriously considered for applications in the emerging field of nanotechnology. Because of the small size of these devices, and the nearone-dimensional nature of charge transport within them, CNFET modeling demands a rigorous quantum-mechanical basis. ...