Recent Advances in Linear Polarization‐Sensitive Photodetectors Based on Perovskites with Different Molecular Dimensions

Xiaoting Wang, Fengyi Zhang, Rongrong Xu, Qianxi Yin, Mulin Li, Xianliang Huang, Teng Ma, Ziyi Chen, Jun Chen, Haibo Zeng
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Abstract

The function of photodetectors is to convert optical signals into current or voltage output. Polarization‐sensitive perovskite photodetectors have attracted significant interest because of their potential applications in imaging and remote sensing technologies. This study provides an overview of the advancements in research on halide perovskite photodetectors, particularly focusing on their capability for linear polarization‐sensitive detection. First, there is a brief description of the background and strengths of linear polarization‐sensitive photodetectors. Then, the core parameters of linear polarization‐sensitive photodetectors are introduced briefly. Third, according to the classification of active layer materials, linear polarization‐sensitive photodetectors are divided into 3D perovskites and low‐dimensional perovskites. The research on linear polarization‐sensitive perovskite detectors are reviewed. Finally, the developments and challenges faced by linear polarization‐sensitive perovskite photodetectors are analyzed.

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基于不同分子尺寸的过氧化物的线性偏振敏感光电探测器的最新进展
光电探测器的功能是将光信号转换为电流或电压输出。偏振敏感型包光体光电探测器因其在成像和遥感技术中的潜在应用而备受关注。本研究概述了卤化物包晶光电探测器的研究进展,尤其侧重于其线性偏振敏感检测能力。首先,简要介绍了线性偏振敏感光电探测器的背景和优势。然后,简要介绍了线性偏振敏感光电探测器的核心参数。第三,根据活性层材料的分类,将线性偏振敏感光探测器分为三维包晶和低维包晶。回顾了线性偏振敏感的包光体探测器的研究情况。最后,分析了线性偏振敏感型包晶光电探测器的发展和面临的挑战。
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