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Ultra-high responsivity (&gt;12.34 kA W <sup>−1</sup> ) of Ga–In bimetallic oxide nanowires based deep-UV photodetector

Ashish Kumar, Ankush Bag

2020Nanotechnology18 citationsDOI

Abstract

Abstract This work demonstrates the application of bimetallic oxide nanowires (NWs) for deep UV-photodetectors. The Ga–In based NWs have been fabricated using a low cost and scalable electrospinning method. The fabrication process includes the synthesis of NWs on cleaned quartz substrates using electrospinning, followed by Al (100 nm)/Au (20 nm)-electrode deposition on top of the fine sheet of NWs. Due to the very large surface to volume ratio, high porosity, photon trapping and simultaneous front and back illumination, the fabricated bimetallic photodetector demostrates a record ultra-high responsivity and the photo-dark current ratio of ~12 348 AW −1 and ~298 846 at 1 V bias respectively. The device has further revealed high detectivity ~3.27 × 10 15 mHz 0.5 W −1 and external quantum efficiency ~7.73 × 10 6 %.

Topics & Concepts

Materials scienceResponsivityPhotodetectorPhotocurrentElectrospinningNanowireOptoelectronicsBimetallic stripFabricationDark currentQuantum efficiencyElectrodeOxideComposite materialMetallurgyPolymerMetalPhysical chemistryMedicineChemistryAlternative medicinePathologyGa2O3 and related materialsZnO doping and propertiesGas Sensing Nanomaterials and Sensors
Ultra-high responsivity (&gt;12.34 kA W <sup>−1</sup> ) of Ga–In bimetallic oxide nanowires based deep-UV photodetector | Litcius