High‐Performance Single‐Microplate Perovskite Photodetectors Based on Polyvinyl Alcohol Filled Planar Electrodes for Weak‐Light Imaging and Pixel Integration

Photoconductors featuring an individual micro/nano‐crystal as the photoactive channel hold the great promise for next‐generation integrated optoelectronics. Meanwhile, the gain aiming for signal amplification without an extra amplifier, the fast response for fast data transfer, and low dark current...

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Veröffentlicht in:Advanced functional materials 2024-09, Vol.34 (52), p.n/a
Hauptverfasser: Mei, Luyao, Yu, Wenzhi, Cui, Nan, Li, Yang, Yang, Tian, Fei, Jianjian, Huang, Zhanfeng, Xu, Zhengji, Mu, Haoran, Lin, Shenghuang, Zhu, Lu
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Sprache:eng
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Zusammenfassung:Photoconductors featuring an individual micro/nano‐crystal as the photoactive channel hold the great promise for next‐generation integrated optoelectronics. Meanwhile, the gain aiming for signal amplification without an extra amplifier, the fast response for fast data transfer, and low dark current for weak signal acquisition are highly desirable in integrated optoelectronics, but are inherent trade‐off in traditional photoconductors. Herein, the study demonstrates a single‐microplate MAPbI3 photoconductor based on polyvinyl alcohol‐filled planar electrodes that can simultaneously achieve excellent performance on these parameters. The superior performance can be attributed to the exquisite design of filling the device channel gap with polyvinyl alcohol. This deep‐work‐function transparent polyvinyl alcohol can not only passivate surface defects of the perovskite microplate by hydrogen bonding, but also form a heterojunction with top perovskites to induce a depleted channel. Resultant single‐microplate photodetectors exhibit exceptional performance characteristics including ultra‐low noise‐equivalent power of 0.19 fW Hz−1/2, high specific detectivity of 3.68 × 1014 Jones, fast response of 3.2 µs, high EQE‐bandwidth over 107 Hz, as well as excellent stability. More importantly, single‐microplate MAPbI3 photoconductors demonstrate ultra‐weak‐light imaging ability surpassing silicon counterparts. Furthermore, the successful integration of their microplate pixels showcases the promising prospect for integrated optoelectronics. A high‐performance MAPbI3 microplate photodetector and its micro pixel integration are demonstrated. The photodetector presents high gain, low noise current, and fast response speed with EQE‐bandwidth product over 107 Hz due to the special structural design of filling PVA in the channel for hydrogen bonding and vertical heterojunction. The micro integration of microplate pixels showcases the prospect for emerging integrated optoelectronics.
ISSN:1616-301X
1616-3028
DOI:10.1002/adfm.202410575