Graphene nanoribbon field effect transistor logic gates performance projection
Graphene Nanoribbon (GNR) has shown to have great advantages over conventional
Silicon for the next generation of CMOS. In this paper, graphene nanoribbon field-effect …
Silicon for the next generation of CMOS. In this paper, graphene nanoribbon field-effect …
[HTML][HTML] Analytical modeling of graphene oxide based memristor
MT Ahmadi, BA Arashloo, TK Nguyen - Ain Shams Engineering Journal, 2021 - Elsevier
Nowadays, carbon–based materials like graphene and its derivatives consume great nano-
technological applications worldwide. Graphene, due to its attractive properties such as its …
technological applications worldwide. Graphene, due to its attractive properties such as its …
Bilayer Graphene Application on NO2 Sensor Modelling
Graphene is one of the carbon allotropes which is a single atom thin layer with sp2
hybridized and two‐dimensional (2D) honeycomb structure of carbon. As an outstanding …
hybridized and two‐dimensional (2D) honeycomb structure of carbon. As an outstanding …
Quantum confinement effect on trilayer graphene nanoribbon carrier concentration
In this study, one-dimensional vision of carrier movement based on the band structure of
trilayer graphene nanoribbon in the presence of a perpendicular electric field is employed …
trilayer graphene nanoribbon in the presence of a perpendicular electric field is employed …
Investigating the mobility of trilayer graphene nanoribbon in nanoscale FETs
The aim of the present paper is to investigate the scaling behaviors of charge carrier mobility
as one of the most remarkable characteristics for modeling of nanoscale field-effect …
as one of the most remarkable characteristics for modeling of nanoscale field-effect …
Effect of length and negative differential resistance behavior in conjugated molecular wire tetrathiafulvalene devices
X Zhang, K Chen, M Long, J He, Y Gao - Modern Physics Letters B, 2015 - World Scientific
The electronic transport properties of molecular devices constructed by conjugated
molecular wire tetrathiafulvalene (TTF) have been studied by applying nonequilibrium …
molecular wire tetrathiafulvalene (TTF) have been studied by applying nonequilibrium …
The Effect of Interconnect on the Circuit Performance of 22 nm Graphene Nanoribbon Field Effect Transistor and MOSFET
This study presents an analysis of 22 nm graphene nanoribbon field effect transistor
(GNRFET) and 22 nm MOSFET 9-stage ring oscillator circuit. The effect of interconnect …
(GNRFET) and 22 nm MOSFET 9-stage ring oscillator circuit. The effect of interconnect …
Gas sensor modelling and simulation
Both graphene and CNTs experience changes in their electrical conductance when
exposed to different gases (such as CO2, NO2, and NH3), and they are, therefore, ideal …
exposed to different gases (such as CO2, NO2, and NH3), and they are, therefore, ideal …
Carrier transport, current–voltage characteristics of BGN
This chapter describes the movement of electron's transport in bilayer graphene nanoribbon
(BGN), which is due to the electric field. It is found that temperature is an effective factor in …
(BGN), which is due to the electric field. It is found that temperature is an effective factor in …
Graphene-based gas sensor theoretical framework
E Akbari, A Enzevaee, H Karimi… - … of Research on …, 2017 - igi-global.com
Both graphene and CNTs experience changes in their electrical conductance when
exposed to different gases (such as CO2, NO2, and NH3), and they are, therefore, ideal …
exposed to different gases (such as CO2, NO2, and NH3), and they are, therefore, ideal …