MXene-Enabled Photodetectors: Material Modulation, Device Performance Enhancement, and Recent Progress

Photodetectors incorporating MXenes as supporting components demonstrate high sensitivity, rapid response speed, and self-powered operation, overcoming the shortcomings of low sensitivity, slow response, and high-power consumption. This review systematically elucidates the fundamental optoelectronic properties of MXenes, and provides a comprehensive analysis of advanced device architectures leveraging MXenes as transparent electrodes, Schottky contact electrodes, and carrier transport layers. Additionally, the review summarizes the latest advancements in MXene-enabled photodetectors and emphasizes their promising future in transparent electronics, image recognition systems, and flexible visual sensing platforms. Future research will focus on enhancing synthesis methods, improving long-term stability, and exploring novel device architectures to ensure MXene-enabled photodetectors continue to drive innovation in next-generation optoelectronic devices.