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Electric-field-induced superconductivity at 9.4 K in a layered transition metal disulphide MoS<sub>2</sub>
200
Citations
15
References
2012
Year
EngineeringSemiconductorsSuperconductivityQuantum MaterialsCharge Carrier TransportMaterials ScienceOxide HeterostructuresElectrical EngineeringElectric Field-induced SuperconductivityIonic LiquidHigh-tc SuperconductivityPhysicsOxide ElectronicsSemiconductor MaterialLayered MaterialTransition Metal ChalcogenidesElectric-field-induced SuperconductivityElectronic MaterialsApplied PhysicsCondensed Matter PhysicsMultilayer HeterostructuresMos2 Channel
Electro-static carrier doping was attempted in a layered transition metal disulphide MoS2 by constructing an electric double-layer transistor with an ionic liquid. With the application of gate voltage VG higher than 3 V, a metallic behavior was observed in the MoS2 channel. We found an onset of electric field-induced superconductivity in the field induced metallic phase. A maximum TC ∼ 9.4 K was observed, which could be higher than those in chemically doped bulk materials.
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