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High-performance self-powered ultraviolet photodetector in SnO2 microwire/p-GaN heterojunction using graphene as charge collection medium

Tong Xu, Mingming Jiang, Peng Wan, Yang Liu, Caixia Kan, Daning Shi

2022Journal of Material Science and Technology42 citationsDOIOpen Access PDF

Abstract

Graphene monolayer has been extensively applied as a transparency electrode material in photoelectronic devices due to its high transmittance, high carrier mobility, and ultrafast carrier dynamics. In this study, a high-performance self-powered photodetector, which is made of a SnO2 microwire, p-type GaN film, and monolayer graphene transparent electrode, was proposed and fabricated. The detector is sensitive to ultraviolet light signals and illustrates pronounced detection performances, including a peak responsivity ∼ 223.7 mA W–1, a detectivity ∼ 6.9 × 1012 Jones, fast response speed (rising/decaying times ∼ 18/580 µs), and excellent external quantum efficiency ∼ 77% at 360 nm light illumination without external power supply. Compared with the pristine SnO2/GaN photodetector using ITO electrode, the device performances of responsivity and detectivity are significantly increased over 6 × 103% and 3 × 103%, respectively. The performance-enhanced characteristics are mainly attributed to the high-quality heterointerface of n-SnO2/p-GaN, the highly conductive capacity, and the unique transparency of graphene electrodes. Particularly, the built-in potential formed at the SnO2/GaN heterojunction interface could be strengthened by the Schottky potential barrier derived from the graphene electrode and SnO2 wire, enhancing the carrier collection efficiency through graphene as a charge collection medium. This work is of great importance and significance to developing excellent-performance ultraviolet photodetectors for photovoltaic and optoelectronic applications in a self-powered operation manner.

Topics & Concepts

Materials scienceResponsivityOptoelectronicsGraphenePhotodetectorSchottky barrierHeterojunctionUltravioletElectrodeCharge carrierQuantum efficiencySpecific detectivityTransmittanceMonolayerNanotechnologyPhysical chemistryDiodeChemistryGa2O3 and related materialsGaN-based semiconductor devices and materialsGas Sensing Nanomaterials and Sensors