[1] Ke Y X, Cen Y Q, Qi D Y et al. Two-dimensional materials photodetectors for optical communications[J]. Chinese Journal of Lasers, 50, 0113008(2023).

[2] Morteza N A, Vafaie M, Johnston A et al. Sub-millimetre light detection and ranging using perovskites[J]. Nature Electronics, 5, 511-518(2022).

[3] Shi L L, Liang Q B, Wang W Y et al. Research progress in organic photomultiplication photodetectors[J]. Nanomaterials, 8, 713(2018).

[4] Sun L Q, Wang D K, Fang D et al. Quantum dots modified ZnO based fast-speed response ultraviolet photodetector[J]. Chinese Journal of Lasers, 49, 1303001(2022).

[5] Miao J L, Zhang F J. Recent progress on highly sensitive perovskite photodetectors[J]. Journal of Materials Chemistry C, 7, 1741-1791(2019).

[6] Shen J L, Ji T, Li G H et al. Through-hole anodized aluminum oxide template assisted fabrication of patterned nanostructures and their applications in optoelectronic devices[J]. Laser & Optoelectronics Progress, 59, 0300001(2022).

[7] Ma N N, Jiang J Z, Zhao Y et al. Stable and sensitive tin-lead perovskite photodetectors enabled by azobenzene derivative for near-infrared acousto-optic conversion communications[J]. Nano Energy, 86, 106113(2021).

[8] Liao Z D, Li K, Liu H R et al. Avalanche photodiode with p-down structure for 100 Gb/s optical communication system[J]. Chinese Journal of Lasers, 49, 1306002(2022).

[9] Mukhokosi E P, Maaza M. Influence of device architectures and mobility on response/recovery time of metal halide perovskites: a review[J]. Journal of Materials Science, 57, 1555-1580(2022).

[10] Zhao Y, Li C L, Shen L. Recent advances on organic-inorganic hybrid perovskite photodetectors with fast response[J]. InfoMat, 1, 164-182(2019).

[11] Li C L, Wang H L, Wang F et al. Ultrafast and broadband photodetectors based on a perovskite/organic bulk heterojunction for large-dynamic-range imaging[J]. Light: Science & Applications, 9, 31(2020).

[12] Yoo J J, Seo G, Chua M R et al. Efficient perovskite solar cells via improved carrier management[J]. Nature, 590, 587-593(2021).

[13] Gao J, Liang Q B, Li G H et al. Single-crystalline lead halide perovskite wafers for high performance photodetectors[J]. Journal of Materials Chemistry C, 7, 8357-8363(2019).

[14] Huang Y T, Kavanagh S R, Scanlon D O et al. Perovskite-inspired materials for photovoltaics and beyond—from design to devices[J]. Nanotechnology, 32, 132004(2021).

[15] Ji T, Wang Y K, Feng L et al. Charge transporting materials for perovskite solar cells[J]. Rare Metals, 40, 2690-2711(2021).

[16] Yang J, Pi M Y, Zhang D K et al. Recent progress on low-dimensional perovskite photodetectors[J]. Chinese Journal of Luminescence, 42, 755-773(2021).

[17] Lim J W, Wang H, Choi C H et al. Self-powered reduced-dimensionality perovskite photodiodes with controlled crystalline phase and improved stability[J]. Nano Energy, 57, 761-770(2019).

[18] Liu Y C, Ye H C, Zhang Y X et al. Surface-tension-controlled crystallization for high-quality 2D perovskite single crystals for ultrahigh photodetection[J]. Matter, 1, 465-480(2019).

[19] Han N, Ji T, Cui Y X et al. Research progress of two-dimensional layered perovskite materials and their applications[J]. Laser & Optoelectronics Progress, 56, 070002(2019).

[20] Zhang Y X, Liu Y C, Xu Z et al. Two-dimensional (PEA)2PbBr4 perovskite single crystals for a high performance UV-detector[J]. Journal of Materials Chemistry C, 7, 1584-1591(2019).

[21] Gu H, Chen S C, Zheng Q D. Long-term stable 2D dion-jacobson phase perovskite photodiode with low dark current and high on/off ratio[J]. Chinese Journal of Structural Chemistry, 40, 1621-1630(2021).

[22] Li Y T, Han L, Liu H et al. Review on organic-inorganic two-dimensional perovskite-based optoelectronic devices[J]. ACS Applied Electronic Materials, 4, 547-567(2022).

[23] Liu Y Z, Li G H, Cui Y X et al. Research progress in perovskite photodetectors[J]. Laser & Optoelectronics Progress, 56, 010001(2019).

[24] Zhao Y J, Qiu Y C, Feng J G et al. Chiral 2D-perovskite nanowires for stokes photodetectors[J]. Journal of the American Chemical Society, 143, 8437-8445(2021).

[25] Wang J Q, Liu Y, Han S G et al. Ultrasensitive polarized-light photodetectors based on 2D hybrid perovskite ferroelectric crystals with a low detection limit[J]. Science Bulletin, 66, 158-163(2021).

[26] Yu D J, Cao F, Gu Y et al. Broadband and sensitive two-dimensional halide perovskite photodetector for full-spectrum underwater optical communication[J]. Nano Research, 14, 1210-1217(2021).

[27] Ji T, Zhang H K, Han N et al. Plasmonic nanoprism enhanced quasi-2D Ruddlesden-Popper layered perovskite photodetectors[J]. Journal of Materials Chemistry C, 8, 1110-1117(2020).

[28] Ji T, Zhang H B, Guo J H et al. Highly sensitive self-powered 2D perovskite photodiodes with dual interface passivations[J]. Advanced Functional Materials, 33, 2210548(2023).

[29] Fu W F, Wang J, Zuo L J et al. Two-dimensional perovskite solar cells with 14.1% power conversion efficiency and 0.68% external radiative efficiency[J]. ACS Energy Letters, 3, 2086-2093(2018).

[30] Zhang X Q, Wu G, Fu W F et al. Orientation regulation of phenylethylammonium cation based 2D perovskite solar cell with efficiency higher than 11%[J]. Advanced Energy Materials, 8, 1702498(2018).

[31] Zhang X Q, Wu G, Yang S D et al. Vertically oriented 2D layered perovskite solar cells with enhanced efficiency and good stability[J]. Small, 13, 1700611(2017).

[32] Dong R, Fang Y J, Chae J et al. High-gain and low-driving-voltage photodetectors based on organolead triiodide perovskites[J]. Advanced Materials, 27, 1912-1918(2015).

[33] Zhang J Q[M]. Infrared detector(2016).

[34] Han S G, Yao Y P, Liu X T et al. Highly oriented thin films of 2D ruddlesden-popper hybrid perovskite toward superfast response photodetectors[J]. Small, 15, 1901194(2019).

[35] Zhou J C, Chu Y L, Huang J. Photodetectors based on two-dimensional layer-structured hybrid lead iodide perovskite semiconductors[J]. ACS Applied Materials & Interfaces, 8, 25660-25666(2016).

[36] Chen J N, Wang Y G, Gan L et al. Generalized self-doping engineering towards ultrathin and large-sized two-dimensional homologous perovskites[J]. Angewandte Chemie, 129, 15089-15093(2017).

[37] Feng J G, Gong C, Gao H F et al. Single-crystalline layered metal-halide perovskite nanowires for ultrasensitive photodetectors[J]. Nature Electronics, 1, 404-410(2018).

[38] Han S G, Wang P, Zhang J et al. Exploring a polar two-dimensional multi-layered hybrid perovskite of (C5H11NH3)2 (CH3NH3)Pb2I7 for ultrafast-responding photodetection[J]. Laser & Photonics Reviews, 12, 1800060(2018).

[39] Wang K, Wu C C, Yang D et al. Quasi-two-dimensional halide perovskite single crystal photodetector[J]. ACS Nano, 12, 4919-4929(2018).

[40] Fang C, Wang H Z, Shen Z X et al. High-performance photodetectors based on lead-free 2D ruddlesden-popper perovskite/MoS2 heterostructures[J]. ACS Applied Materials & Interfaces, 11, 8419-8427(2019).

[41] He X X, Wang Y G, Li K et al. Oriented growth of ultrathin single crystals of 2D ruddlesden-popper hybrid lead iodide perovskites for high-performance photodetectors[J]. ACS Applied Materials & Interfaces, 11, 15905-15912(2019).

[42] Li L N, Liu X T, Li Y B et al. Two-dimensional hybrid perovskite-type ferroelectric for highly polarization-sensitive shortwave photodetection[J]. Journal of the American Chemical Society, 141, 2623-2629(2019).

[43] Wang Y Y, Liu X T, Li L N et al. (C6H13NH3)2(NH2CHNH2)Pb2I7: a two-dimensional bilayer inorganic-organic hybrid perovskite showing photodetecting behavior[J]. Chemistry-an Asian Journal, 14, 1530-1534(2019).

[44] Wei Y Z, Feng G T, Mao P et al. Lateral photodetectors based on double-cable polymer/two-dimensional perovskite heterojunction[J]. ACS Applied Materials & Interfaces, 12, 8826-8834(2020).