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Low-Voltage High-Performance UV Photodetectors: An Interplay between Grain Boundaries and Debye Length

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Bo, Renheng
Nasiri, Noushin
Chen, Hongjun
Caputo, Domenico
Fu, Lan
Tricoli, Antonio

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American Chemical Society

Abstract

Accurate detection of UV light by wearable low-power devices has many important applications including environmental monitoring, space to space communication, and defense. Here, we report the structural engineering of ultraporous ZnO nanoparticle networks for fabrication of very low-voltage high-performance UV photodetectors. Record high photo- to dark-current ratio of 3.3×105 and detectivity of 3.2×1012 Jones at ultra-low operation bias of 2 mV and low UV-light intensity of 86 μW⋅cm-2 are achieved by controlling the interplay between grain boundaries and surface depletion depth of ZnO nanoscale semiconductors. An optimal window of structural properties is determined by varying the particle size of ultraporous nanoparticle networks from 10 to 42 nm. We find that small electron-depleted nanoparticles (≤ 40 nm) are necessary to minimize the dark-current, however, the rise in photo-current is tampered with decreasing particle size due to the increasing density of grain boundaries. These findings reveal that nanoparticles with a size close to twice their Debye’s length are required for high phototo dark-current ratio and detectivity, while further decreasing their size decreases the photodetector performance

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ACS Applied Materials and Interfaces

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Restricted until

2099-12-31