评估用于自由空间光通信的 PbS 和 HgTe 胶体量子点红外探测器的潜力和局限性

Advanced Materials & Technologies Pub Date : 2024-07-31 DOI:10.1002/admt.202400302

Xue Zhao, Haifeng Yao, Yanyan Qiu, Naiquan Yan, Qun Hao, Menglu Chen

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摘要

红外自由空间光通信是一种前景广阔的安全无线光通信技术，其核心部件是红外光探测器。迄今为止，此类应用都是基于外延生长的窄带半导体，面临着大面积制造的挑战。红外胶体量子点（CQD）因其高通量的溶液处理而备受关注。在这里，大面积 CQD 光电探测器的波长可调，覆盖 1.3-2.0 µm。对于 1 × 1 平方毫米的 CQD 光电探测器，室温下的响应时间不超过 1 微秒，对 25 kbps PRBS-7 通信代码的响应非常灵敏。对于 1.5 × 1.5 平方厘米的大面积 CQD 光电探测器，通信速率达到了 2 kbps。这项工作为 CQD 在光通信领域的应用迈出了一步。

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Assessing the Potential and Limitations of PbS and HgTe Colloidal Quantum Dot Infrared Detectors for Free Space Optical Communication

Free space optical communication with infrared light is a promising secure wireless optical communication technology, where infrared photodetectors are the core component. To date, such applications are based on epitaxial growth narrow‐band semiconductors facing the challenge of large‐area fabrication. Infrared colloidal quantum dots (CQDs) are of interest because of the high‐throughput solution processing. Here, large‐area CQD photodetectors with adjustable wavelengths covering 1.3–2.0 µm. For 1 × 1 mm2 CQD photodetector, the response time achieved within 1 µs at room temperature, responded sharply to the 25 kbps PRBS‐7 communication code is demonstrated. For 1.5 × 1.5 cm2 large‐area CQD photodetectors, a communication rate of 2 kbps is achieved. This work is a step toward the CQD application in the field of optical communications.

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Advanced Materials & Technologies

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