Two-dimensional (2D) inorganic/organic heterostructures have attracted great attention in the field of optoelectronics due to their unique properties. Comparing with purity organic semiconductors or 2D inorganic heterostructures, the 2D inorganic/organic heterostructure overwhelms the current limitations of photodetectors and provides more opportunities for the optoelectronic field. However, no in-depth reviews on the important progresses, challenges, and optimizing strategies of performance of photodetectors based on 2D inorganic/organic heterostructures are found in literatures to date. Herein, this report firstly introduces unique features of 2D inorganic/organic heterostructures. Then, we sum up the main growing methods according to the technological principle, and the main properties of photodetectors, and summarize the progresses of photodetectors of 2D inorganic-organic heterostructures based on different physical mechanisms (mainly as photovoltaic effect and photoconduct...

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基于二维无机/有机异质结构的光电探测器的最新进展和策略

二维（2D）无机/有机异质结构因其独特的性能而在光电领域引起了极大的关注。与纯有机半导体或2D无机异质结构相比，2D无机/有机异质结构克服了光电探测器的当前局限性，并为光电子领域提供了更多机会。然而，迄今为止，在文献中没有对基于2D无机/有机异质结构的光电探测器的重要进展，挑战和性能优化策略进行深入审查。本文首先介绍了二维无机/有机异质结构的独特特征。然后，根据技术原理，总结了主要的生长方法，以及光电探测器的主要特性，