Transmittance contrast‐induced photocurrent: A general strategy for self‐powered photodetectors based on MXene electrodes

光电流 光电探测器 光电子学 响应度 材料科学 透射率 肖特基势垒 肖特基二极管 半导体 电极 暗电流 薄脆饼 化学 二极管 物理化学
作者
Hailong Ma,Huajing Fang,Jiaqi Li,Ziqing Li,Xiaosheng Fang,Hong Wang
出处
期刊:InfoMat [Wiley]
卷期号:6 (5) 被引量:19
标识
DOI:10.1002/inf2.12540
摘要

Abstract The regulation of carrier generation and transport by Schottky junctions enables effective optoelectronic conversion in optoelectronic devices. A simple and general strategy to spontaneously generate photocurrent is of great significance for self‐powered photodetectors but is still being pursued. Here, we propose that a photocurrent can be induced at zero bias by the transmittance contrast of MXene electrodes in MXene/semiconductor Schottky junctions. Two MXene electrodes with a large transmittance contrast (84%) between the thin and thick zones were deposited on the surface of a semiconductor wafer using a simple and robust solution route. Kelvin probe force microscopy tests indicated that the photocurrent at zero bias could be attributed to asymmetric carrier generation and transport between the two Schottky junctions under illumination. As a demonstration, the MXene/GaN ultraviolet (UV) photodetector exhibits excellent performance superior to its counterpart without transmittance contrast, including high responsivity (81 mA W –1 ), fast response speed (less than 31 and 29 ms) and ultrahigh on/off ratio (1.33 × 10 6 ), and good UV imaging capability. Furthermore, this strategy has proven to be universal for first‐ to third‐generation semiconductors such as Si and GaAs. These results provide a facile and cost‐effective route for high‐performance self‐powered photodetectors and demonstrate the versatile and promising applications of MXene electrodes in optoelectronics. image
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