Approach to Multifunctional Device Platform with Epitaxial Graphene on Transition Metal Oxide (Postprint)

Heterostructures consisting of two-dimensional materials have shown new physical phenomena, novel electronic and optical properties, and new device concepts not observed in bulk material systems or purely three dimensional heterostructures. These new effects originated mostly from the van der Waals...

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Hauptverfasser:	Park,Jeongho, Back,Tyson, Mitchel,William C, Kim,Steve S, Elhamri,Said, Boeckl,John, Fairchild,Steven B, Naik,Rajesh, Voevodin,Andrey A
Format:	Report
Sprache:	eng
Schlagworte:	2D (two dimensional) 2d graphene 2d materials conduction bands ELECTRICAL PROPERTIES fet (field effect transistors) Field Effect Transistors graphene Heterostructures interactions Intercalation layers MOLECULAR BEAM EPITAXY optical properties PHOTODETECTION PHOTOSENSITIVITY tio2 (TITANIUM DIOXIDE) TITANIUM DIOXIDE TRANSITION METAL OXIDEs TRANSITION METALS valence bands VAN DER WAALS FORCES van der Waals interaction
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creator	Park,Jeongho Back,Tyson Mitchel,William C Kim,Steve S Elhamri,Said Boeckl,John Fairchild,Steven B Naik,Rajesh Voevodin,Andrey A
description	Heterostructures consisting of two-dimensional materials have shown new physical phenomena, novel electronic and optical properties, and new device concepts not observed in bulk material systems or purely three dimensional heterostructures. These new effects originated mostly from the van der Waals interaction between the different layers. Here we report that a new optical and electronic device platform can be provided by heterostructures of 2D graphene with a metal oxide (TiO2). Our novel direct synthesis of graphene/TiO2 heterostructure is achieved by C60 deposition on transition Ti metal surface using a molecular beam epitaxy approach and O2 intercalation method, which is compatible with wafer scale growth of heterostructures. As-grown heterostructures exhibit inherent photosensitivity in the visible light spectrum with high photo responsivity. The photo sensitivity is 25 times higher than that of reported graphene photo detectors. The improved responsivity is attributed to optical transitions between O 2p orbitals in the valence band of TiO2 and C 2p orbitals in the conduction band of graphene enabled by Coulomb interactions at the interface. In addition, this heterostructure provides a platform for realization of bottom gated graphene field effect devices with graphene and TiO2 playing the roles of channel and gate dielectric layers, respectively. Scientific Reports , 5, 01 Jan 0001, 01 Jan 0001,
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These new effects originated mostly from the van der Waals interaction between the different layers. Here we report that a new optical and electronic device platform can be provided by heterostructures of 2D graphene with a metal oxide (TiO2). Our novel direct synthesis of graphene/TiO2 heterostructure is achieved by C60 deposition on transition Ti metal surface using a molecular beam epitaxy approach and O2 intercalation method, which is compatible with wafer scale growth of heterostructures. As-grown heterostructures exhibit inherent photosensitivity in the visible light spectrum with high photo responsivity. The photo sensitivity is 25 times higher than that of reported graphene photo detectors. The improved responsivity is attributed to optical transitions between O 2p orbitals in the valence band of TiO2 and C 2p orbitals in the conduction band of graphene enabled by Coulomb interactions at the interface. In addition, this heterostructure provides a platform for realization of bottom gated graphene field effect devices with graphene and TiO2 playing the roles of channel and gate dielectric layers, respectively. 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These new effects originated mostly from the van der Waals interaction between the different layers. Here we report that a new optical and electronic device platform can be provided by heterostructures of 2D graphene with a metal oxide (TiO2). Our novel direct synthesis of graphene/TiO2 heterostructure is achieved by C60 deposition on transition Ti metal surface using a molecular beam epitaxy approach and O2 intercalation method, which is compatible with wafer scale growth of heterostructures. As-grown heterostructures exhibit inherent photosensitivity in the visible light spectrum with high photo responsivity. The photo sensitivity is 25 times higher than that of reported graphene photo detectors. The improved responsivity is attributed to optical transitions between O 2p orbitals in the valence band of TiO2 and C 2p orbitals in the conduction band of graphene enabled by Coulomb interactions at the interface. In addition, this heterostructure provides a platform for realization of bottom gated graphene field effect devices with graphene and TiO2 playing the roles of channel and gate dielectric layers, respectively. 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These new effects originated mostly from the van der Waals interaction between the different layers. Here we report that a new optical and electronic device platform can be provided by heterostructures of 2D graphene with a metal oxide (TiO2). Our novel direct synthesis of graphene/TiO2 heterostructure is achieved by C60 deposition on transition Ti metal surface using a molecular beam epitaxy approach and O2 intercalation method, which is compatible with wafer scale growth of heterostructures. As-grown heterostructures exhibit inherent photosensitivity in the visible light spectrum with high photo responsivity. The photo sensitivity is 25 times higher than that of reported graphene photo detectors. The improved responsivity is attributed to optical transitions between O 2p orbitals in the valence band of TiO2 and C 2p orbitals in the conduction band of graphene enabled by Coulomb interactions at the interface. In addition, this heterostructure provides a platform for realization of bottom gated graphene field effect devices with graphene and TiO2 playing the roles of channel and gate dielectric layers, respectively. Scientific Reports , 5, 01 Jan 0001, 01 Jan 0001,</abstract><oa>free_for_read</oa></addata></record>
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subjects	2D (two dimensional) 2d graphene 2d materials conduction bands ELECTRICAL PROPERTIES fet (field effect transistors) Field Effect Transistors graphene Heterostructures interactions Intercalation layers MOLECULAR BEAM EPITAXY optical properties PHOTODETECTION PHOTOSENSITIVITY tio2 (TITANIUM DIOXIDE) TITANIUM DIOXIDE TRANSITION METAL OXIDEs TRANSITION METALS valence bands VAN DER WAALS FORCES van der Waals interaction
title	Approach to Multifunctional Device Platform with Epitaxial Graphene on Transition Metal Oxide (Postprint)
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