光电探测器
暗电流
光电子学
材料科学
量子点
截止频率
比探测率
钝化
宽带
波长
红外线的
热辐射计
硫化铅
光电二极管
量子效率
晶体管
上升时间
放大器
光探测
探测器
光学
激子
光致发光
作者
Hang Xia,Luyao Lv,Xi Ran,Mohan Yuan,Xinzheng Lan
出处
期刊:ACS Photonics
[American Chemical Society]
日期:2026-03-27
卷期号:13 (8): 2291-2301
标识
DOI:10.1021/acsphotonics.6c00366
摘要
PbS colloidal quantum dots (CQDs) hold great promise in the next generation of low-cost, high-performance short-wave infrared (SWIR) photodetectors. Both the dark current and the spectral response, however, have been hampered by the preparation of semiconductor-grade PbS CQDs. Here, we report high-performance PbS CQD photodetectors by leveraging a monomer-assisted ligand exchange strategy. The resultant PbS CQD films show enhanced defect passivation evidenced by more than 1 order of magnitude increase in their exciton lifetime, which translated into photodetectors with record low dark current and high specific detectivity (D*). For a cutoff wavelength ∼1700 nm, ultralow dark current (21 nA/cm2 at −0.5 V) and a peak specific detectivity (D*) of 8.73 × 1012 Jones were achieved at 1650 nm, which are comparable to commercial InGaAs photodetectors. In addition, the implementation of this approach to large-sized PbS CQDs leads to broadband photodetectors with a cutoff wavelength of ∼2330 nm, a regime previously inaccessible to PbS CQDs. The monolithic integration of PbS CQD photodetectors with a 256 × 256 pixel thin-film transistor readout circuit enables infrared imaging through Si and Ge filters, validating the technology’s potential for broadband imaging applications.
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