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Lattice Defect Engineering Enables Performance-Enhanced MoS<sub>2</sub> Photodetection through a Paraelectric BaTiO<sub>3</sub> Dielectric

Wan Zhang, Feng Qiu, Yong Li, Rui Zhang, Huan Liu, Lun Li, Jiyang Xie, Wanbiao Hu

2021ACS Nano53 citationsDOI

Abstract

Carrier mobility and density are intrinsically important in nanophoto/electronic devices. High-dielectric-constant coupled polarization-field gate ferroelectrics are frequently studied and partially capable in achieving large-scale tuning of photoresponse, but their light absorption and carrier density seem generally ineffective. This raises questions about whether a similarly high-dielectric-constant paraelectric gate dielectric could enable tuning and how the principles involved could be established. In this study, by deliberately introducing lattice defects in high-dielectric-constant paraelectric, cubic BaTiO3 (c-BTO) was explored to fabricate MoS2 photodetectors with ultrahigh detection ability and outstanding field-effect traits. An organic-metal-based spin-coating cum annealing method was used for the c-BTO synthesis, with an optimized thickness (300 nm), by introducing lattice defects properly but maintaining a large dielectric constant (55 at 1k Hz) and low dielectric loss (0.06 at 1k Hz), which renders the enhanced visible-light region absorption. As a result of the synergistically enhanced mobility and photoabsorption, the MoS2/BTO FET exhibits promising merits, for example, on/off ratio, subthreshold swing, and mobilities for high-performance photodetectors with excellent responsivity (600 AW–1) and detectivity (1.25 × 1012 Jones). Thus, this work facilitates the establishment of a lattice defect induced sub-bandgap absorption landmap for synergistically enhanced photoresponse for high-performance photodetector exploration.

Topics & Concepts

DielectricMaterials sciencePhotodetectorOptoelectronicsHigh-κ dielectricResponsivityPhotodetectionGate dielectricBand gapSpecific detectivityFerroelectricityAnnealing (glass)Electron mobilityTransistorElectrical engineeringComposite materialEngineeringVoltage2D Materials and ApplicationsPerovskite Materials and ApplicationsMultiferroics and related materials