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Enhanced Photogating Effect in Graphene Photodetectors <i>via</i> Potential Fluctuation Engineering

Hao Jiang, Jingxuan Wei, Feiying Sun, Changbin Nie, Jintao Fu, Haofei Shi, Jiu-Xun Sun, Xingzhan Wei, Cheng‐Wei Qiu

2022ACS Nano105 citationsDOI

Abstract

The photogating effect in hybrid structures has manifested itself as a reliable and promising approach for photodetectors with ultrahigh responsivity. A crucial factor of the photogating effect is the built-in potential at the interface, which controls the separation and harvesting of photogenerated carriers. So far, the primary efforts of designing the built-in potential rely on discovering different materials and developing multilayer structures, which may raise problems in the compatibility with the standard semiconductor production line. Here, we report an enhanced photogating effect in a monolayer graphene photodetector based on a structured substrate, where the built-in potential is established by the mechanism of potential fluctuation engineering. We find that the enhancement factor of device responsivity is related to a newly defined parameter, namely, fluctuation period rate ( P f ). Compared to the device without a nanostructured substrate, the responsivity of the device with an optimized P f is enhanced by 100 times, reaching a responsivity of 240 A/W and a specific detectivity, D *, of 3.4 × 10 12 Jones at 1550 nm wavelength and room temperature. Our experimental results are supported by both theoretical analysis and numerical simulation. Since our demonstration of the graphene photodetectors leverages the engineering of structures with monolayer graphene rather than materials with a multilayer complex structure. it should be universal and applicable to other hybrid photodetectors.

Topics & Concepts

PhotodetectorResponsivityGrapheneMaterials scienceOptoelectronicsMonolayerSemiconductorSubstrate (aquarium)NanotechnologyGeologyOceanographyGraphene research and applicationsPlasmonic and Surface Plasmon ResearchQuantum and electron transport phenomena