材料科学
光电子学
异质结
红外线的
光电探测器
大幅面
暗电流
比探测率
量子效率
光学
物理
作者
Yifan Chen,Qi Wei,Shuixian Yang,Tao Zhang,Hongfei Chen,Zhihao Fu,Chao Lü,Zhengyong Liu,Yanxiong Wu,Jingshun Pan,Mingjie Li,Zhaohui Li
标识
DOI:10.1002/adma.202504225
摘要
Abstract The mid‐infrared focal plane array (FPA) imager has developed over recent decades to become multifunctional, powerful, reliable, miniaturized, and cost‐effective. However, the complexity of the refrigerated packaging process (such as dewar flask) and traditional fabrication technology (such as flip‐chip) continues to contribute significantly to the high cost of industrial production. Here, a simple, low‐cost, and effective type of uncooled mid‐infrared FPA imager is reported through the monolithic integration of mid‐infrared Pb 1‐x Sn x Se nanocrystals (NCs) PIN heterojunction (PbS/Pb 1‐x Sn x Se/ZnO) photodetectors and glass‐based readout integrated circuits (ROICs). Sn‐doping in PbSe NCs not only weakens the internal photocarrier‐phonon coupling to reduce thermal noise but also optimizes the energy band structure of the heterojunction to enhance mid‐infrared performance. Finally, the PbS/Pb 0.86 Sn 0.14 Se/ZnO heterojunction photodetector demonstrates a dark current (2.7 x 10 −7 A mm −2 at −0.5 V), a detectivity of 7.46 × 10 9 Jones at a peak wavelength of 4.25 µm, air stability (retaining 96.7% performance at 300 K for 360 days) and the corresponding uncooled mid‐infrared FPA (64 × 64 pixels) achieves excellent thermal sensitivity of 133 mK. These results underscore the substantial potential applications of mid‐infrared FPA based on the heterojunction, including spectral imaging, gas leak detection, and chemical reagent identification.
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