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  Department of Robotics and Mechatronics Engineering Bio-Micro Robotics Lab 1. Journal Articles
Control of Multilevel Resistance in Vanadium Dioxide by Electric Field Using Hybrid Dielectrics
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Title
Control of Multilevel Resistance in Vanadium Dioxide by Electric Field Using Hybrid Dielectrics
Issued Date
2017-04
Citation
Abbas, Kaleem. (2017-04). Control of Multilevel Resistance in Vanadium Dioxide by Electric Field Using Hybrid Dielectrics. ACS Applied Materials & Interfaces, 9(15), 13571–13576. doi: 10.1021/acsami.6b16424
Type
Article
Author Keywords
vanadium dioxideinsulator-metal transitionelectric fieldMott transistorhybrid dielectric
Keywords
Carrier ConcentrationDielectric MaterialsDrivenEffect TransistorsElectric FieldElectric Field EffectsElectric FieldsElectrostatic DevicesElectrostatic EffectField Effect TransistorsHybrid DielectricHybrid DielectricsInsulator Metal TransitionInterface QualityInterfaces (Materials)Metal Insulator TransitionMott TransistorMott TransitionNanobeamsOxide InterfacePhase TransitionPositive Gate BiasPower Field Effect TransistorsQuality ControlResistance ModulationResistance SwitchingTemperatureThin FilmsVanadiumVanadium DioxideVO2
ISSN
1944-8244
Abstract
We investigate the effect of electric field on VO2 back-gated field effect transistor (FET) devices. Using hybrid dielectric layers, we demonstrate the highest resistance modulation on the order of 102 in VO2 at a positive gate bias of 80 V (1.6 MV/cm). VO2 FET devices are prepared on SiO2 substrates of different thicknesses (100-300 nm) and hybrid dielectric layers of Al2O3/SiO2 (500 nm). For thicknesses less than 300 nm, no electric-field effects are observed, whereas for a 300 nm thickness, a small decrease in resistance is observed under a 0.2 MV/cm electric field. Under the electrostatic effect, the carrier concentration increases in VO2 devices, decreasing the resistance and the transition temperature from 66.75 to 64 °C. The leakage analysis shows that the interface quality of VO2 films on hybrid dielectric layers can be further improved. These studies suggest a multilevel fast resistance switching with the electric field and give an insight into the gate-source leakage current, which limits the phase transition in VO2 in an electric field. © 2017 American Chemical Society.
URI
http://hdl.handle.net/20.500.11750/4194
DOI
10.1021/acsami.6b16424
Publisher
American Chemical Society
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