Solution-processed PbS colloidal quantum dots/PCBM based photodetector for multispectral detection

Earth and Space From Infrared to Terahertz (ESIT 2022) Pub Date : 2023-01-31 DOI:10.1117/12.2665265

Lijing Yu, P. Tian, L. Tang, Qun Hao, K. Teng

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Abstract

Photodetectors convert optical signals into electrical signals and have found many important applications ranging from environmental monitoring to communication systems. At present, most photodetectors are based on either bulk materials or epitaxially grown materials (such as InSb and HgCdTe), which limit its widespread applications due to relatively high fabrication cost. However, photodetector based on organic polymer/colloidal quantum dots (CQDs) can provide a low-cost alternative. In this paper, a broadband photodetector consisting of organic polymer phenyl-c61-butyric acid methyl ester (PCBM) and PbS CQDs was fabricated. Combining the advantages of PbS CQDs and organic polymer PCBM, the device demonstrated good spectral response ranging from the UV to the NIR with a maximum responsivity and detectivity of 0.3 A/W and 6.6 × 1011 Jones, respectively, under illumination of 850 nm incident light. The device can be fabricated on almost any substrate due to the solution-processibility of CQDs. Furthermore, the use of organic polymer substrate can significantly reduce the cost of device and broaden its applications (such as in flexible electronics). This work provides a simple and efficient strategy to fabricate photodetector that exhibits multi-band response at relatively low-cost.

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溶液处理PbS胶体量子点/基于多光谱检测的PCBM光电探测器

光电探测器将光信号转换为电信号，并在从环境监测到通信系统的许多重要应用中得到了应用。目前，大多数光电探测器都是基于块体材料或外延生长材料(如InSb和HgCdTe)，由于制造成本相对较高，限制了其广泛应用。然而，基于有机聚合物/胶体量子点(CQDs)的光电探测器可以提供一种低成本的替代方案。本文制备了一种由有机聚合物苯基-c61-丁酸甲酯(PCBM)和PbS CQDs组成的宽带光电探测器。该器件结合了PbS CQDs和有机聚合物PCBM的优点，在850 nm入射光照射下，在紫外到近红外范围内表现出良好的光谱响应，最大响应率和探测率分别为0.3 a /W和6.6 × 1011 Jones。由于CQDs的溶液可加工性，该器件可以在几乎任何衬底上制造。此外，有机聚合物衬底的使用可以显著降低器件成本并拓宽其应用范围(如柔性电子)。这项工作提供了一种简单有效的策略，以相对低的成本制造出具有多波段响应的光电探测器。

本文章由计算机程序翻译，如有差异，请以英文原文为准。

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来源期刊

Earth and Space From Infrared to Terahertz (ESIT 2022)

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