期刊
PHOTONICS RESEARCH
卷 9, 期 6, 页码 968-991出版社
CHINESE LASER PRESS
DOI: 10.1364/PRJ.418450
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资金
- National Key Research and Development Program of China [2018YFB2200500]
- National Natural Science Foundation of China [61974170, 61934007]
- Beijing Municipal Science and Technology Commission [Z191100004819011]
- International Collaboration Project of Ministry of Science and Technology [DL20200001030]
Metal halide perovskites have shown great potential in optoelectronics, especially in the development of high-performance photodetectors. Self-powered perovskite photodetectors play a crucial role in future nanodevices, operating independently, wirelessly, and remotely.
Metal halide perovskites have aroused tremendous interest in optoelectronics due to their attractive properties, encouraging the development of high-performance devices for emerging application domains such as wearable electronics and the Internet of Things. Specifically, the development of high-performance perovskite-based photodetectors (PDs) as an ultimate substitute for conventional PDs made of inorganic semiconductors such as silicon, InGaAs, GaN, and germanium-based commercial PDs, attracts great attention by virtue of its solution processing, film deposition technique, and tunable optical properties. Importantly, perovskite PDs can also deliver high performance without an external power source; so-called self-powered perovskite photodetectors (SPPDs) have found eminent application in next-generation nanodevices operating independently, wirelessly, and remotely. Earlier research reports indicate that perovskite-based SPPDs have excellent photoresponsive behavior and wideband spectral response ranges. Despite the high-performance perovskite PDs, their commercialization is hindered by long-term material instability under ambient conditions. This review aims to provide a comprehensive compilation of the research results on self-powered, lead-halide perovskite PDs. In addition, a brief introduction is given to flexible SPPDs. Finally, we put forward some perspectives on the further development of perovskite-based self-powered PDs. We believe that this review can provide state-of-the-art current research on SPPDs and serve as a guide to improvising a path for enhancing the performance to meet the versatility of practical device applications. (C) 2021 Chinese Laser Press
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