Recently, great attention has been paid to IV-VI colloidal quantum dots (CQDs) for their high photosensitivity, solution processability and low cost. Also, metal halide perovskites are very promising materials to realize the high-performance solution-processed visible-light photodetectors due to their cost-effective manufacturing, tunable absorption and photoluminescence in whole visible spectrum. In this paper, we present solution-processed CQDs-based tandem broadband photodetectors with low dark-current and high-sensitivity by inserting dielectric Polymethyl methacrylate (PMMA) interlayer between two sub-detectors. Our experimental data showed that the tandem broadband photodetector ITO/PEDOT:PSS/CsPbBr:PbSSe/ZnO/PVK/CsPbBr:PbSSe/ZnO/Au showed a maximum specific detectivity of 6.8 × 10 Jones with a responsivity of 27 A W under 57.8 μW cm 980 nm illumination. The device performance can be further enhanced by inserting a 50 nm dielectric PMMA layer between the two sub-photodetectors. As the result, the tandem photodetector ITO/PEDOT:PSS/CsPbBr:PbSSe/ZnO/PMMA(50 nm)/PVK/CsPbBr:PbSSe/ZnO/Au exhibits a maximum specific detectivity of 1.32 × 10 Jones with a responsivity of 27.72 A W under 57.8 μW cm of 980 nm laser. Further, the physical mechanisms for the enhanced performance are discussed in detail.
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