Light-induced modification of the Schottky barrier height in graphene/Si based near-infrared photodiodes
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Date
2022
Authors
M. Fidan
G. Donmez
A. Yanilmaz
O. Unverdi
C. Celebi
Journal Title
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Volume Title
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ELSEVIER
Open Access Color
Green Open Access
No
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No
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Top 10%
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Average
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Top 10%
Abstract
The impact of light on the Schottky barrier height (SBH) in p-type graphene/n-type Si (p-Gr/n-Si) based nearinfrared photodiodes is investigated. Hall effect and optoelectronic transport measurements carried out under illumination of 905 nm wavelength light showed that zero-bias SBH in such photodiodes can be effectively tuned in a range between 0.7 and 0.9 eV consistent with the variation in their open-circuit voltage. Shockley-Read-Hall model which considers the charge recombination through mid-gap and interface states at the p-Gr/n-Si heterojunction is used to explain the experimentally observed nonlinear dependence of SBH on the incident light. Light induced tunability of SBH at the graphene/semiconductor heterojunction is of great importance especially for the development of new generation optically driven devices in which graphene acts as a functioning element.
Description
Keywords
CVD graphene, Schottky barrier, Near-infrared photodiode, Open -circuit voltage, Shockley-Read-Hall recombination, PERFORMANCE, EFFICIENCY, CVD Graphene, Near-Infrared Photodiode, Schottky Barrier, Open -Circuit Voltage, Shockley-Read-Hall Recombination, Open-Circuit Voltage, Silicon, Near-Infrared Photodiode, CVD Graphene, Incident Light, Near-Infrared Photodiodes, Schottky Barriers, Shockley-Read-Hall Recombination, Photodiodes, Open-Circuit Voltage, Schottky Barrier Diodes, Infrared Devices, Transport Measurements, Light-Induced, Shockley-Read-Hall Recombinations, Open-Circuit Voltages, Timing Circuits, Interface States, Schottky-Barrier Heights, Schottky Barrier, Heterojunctions, Graphene, Open Circuit Voltage, P-Type, Si-Based
Fields of Science
02 engineering and technology, 01 natural sciences, 0103 physical sciences, 0210 nano-technology
Citation
WoS Q
Scopus Q
OpenCitations Citation Count
2
Source
Infrared Physics & Technology
Volume
123
Issue
Start Page
104165
End Page
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CrossRef : 4
Scopus : 4
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4
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4
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