Observation of complete space-charge-limited transport in metal-oxide-graphene heterostructure

The metal-oxide-graphene heterostructures have abundant physical connotations. As one of the most important physical properties, the electric transport property of the gold-chromium oxide-graphene heterostructure has been studied. The experimental measurement shows that the conductive mechanism is d...

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Veröffentlicht in:Applied physics letters 2015-01, Vol.106 (2)
Hauptverfasser: Chen, Wei, Wang, Fei, Qin, Shiqiao, Fang, Jingyue, Wang, Chaocheng, Wang, Guang, Wang, Li, Zhang, Xue-Ao
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container_title Applied physics letters
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creator Chen, Wei
Wang, Fei
Qin, Shiqiao
Fang, Jingyue
Wang, Chaocheng
Wang, Guang
Wang, Li
Zhang, Xue-Ao
description The metal-oxide-graphene heterostructures have abundant physical connotations. As one of the most important physical properties, the electric transport property of the gold-chromium oxide-graphene heterostructure has been studied. The experimental measurement shows that the conductive mechanism is dominated by the space-charge-limited transport, a kind of bulk transport of an insulator with charge traps. Combining the theoretical analysis, some key parameters such as the carrier mobility and trap energy also are obtained. The study of the characteristics of the metal-oxide-graphene heterostructures is helpful to investigate the graphene-based electronic and photoelectric devices.
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1077-3118
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subjects Applied physics
CARRIER MOBILITY
CHARGE TRANSPORT
CHROMIUM OXIDES
CONDENSED MATTER PHYSICS, SUPERCONDUCTIVITY AND SUPERFLUIDITY
ELECTRIC CONDUCTIVITY
Electronic devices
GOLD
GRAPHENE
HETEROJUNCTIONS
Heterostructures
Metal oxides
Photoelectricity
Physical properties
SPACE CHARGE
TRAPS
title Observation of complete space-charge-limited transport in metal-oxide-graphene heterostructure
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