Back to Search Start Over

Photodetectors with armchair graphene nanoribbons and asymmetric source and drain contacts.

Authors :
Ostovari, Fatemeh
Moravvej-Farshi, Mohammad Kazem
Source :
Applied Surface Science. Nov2014, Vol. 318, p108-112. 5p.
Publication Year :
2014

Abstract

Characteristics of photodetectors with asymmetric source and drain contacts and armchair graphene nanoribbons (a-GNR) channel under monochromatic illuminations of various incident energies in the range of mid infrared (0.1 eV) to solar blind ultra violet (10 eV) are simulated. Simulations show the photocurrent spectrum for the device with an a-GNR of 30 unit cells long and 10 C-atoms wide connected between asymmetric leads made of Au-contacted and Ti-contacted graphenes, under monochromatic illumination of incident intensity 10 3 W/cm 2 , exhibits a peak current of 1.897 μA. This peak that is obtained in absence of any external biases, applied to the device terminals, occurs at the energy E = 5.02 eV and correspond to the quantum efficiency of 60%. The evaluated responsivity for this photodetector under zero applied biases equals 13.4 A/mW. The negative and positive local photocurrents are shown peak near the p-type source-channel and n-type drain-channel boundaries under negative gate to source voltages, respectively. Polarities of the local photocurrents alter when the gate-source voltage approaches to the Dirac point, for which the maximum total photocurrent is achieved. Finally, the total device current versus the drain-source voltages obtained under monochromatic illumination, for V GS = 0, is shown to shift toward negative values in comparison the dark current. This is because the dark current and photocurrents flow in opposite directions. Simulations are performed, using the non-equilibrium Green's function (NEGF) formalism coupled to Poisson solver. [ABSTRACT FROM AUTHOR]

Details

Language :
English
ISSN :
01694332
Volume :
318
Database :
Academic Search Index
Journal :
Applied Surface Science
Publication Type :
Academic Journal
Accession number :
99228448
Full Text :
https://doi.org/10.1016/j.apsusc.2014.01.117