Enhancing silicon photodetector performance through spectral downshifting using core-shell CdZnS/ZnS and perovskite CsPbBr3 quantum dots

Kumaar Swamy Reddy Bapathi; Mostafa F. Abdelbar; Wipakorn Jevasuwan; Qinqiang Zhang; Pramod H. Borse; Sushmee Badhulika; Naoki Fukata

doi:10.1016/j.nanoen.2024.109832

ジャーナル論文 Enhancing silicon photodetector performance through spectral downshifting using core-shell CdZnS/ZnS and perovskite CsPbBr3 quantum dots

Kumaar Swamy Reddy Bapathi ; Mostafa F. Abdelbar (National Institute for Materials Science) ; Wipakorn Jevasuwan (National Institute for Materials Science) ; Qinqiang Zhang (National Institute for Materials Science) ; Pramod H. Borse ; Sushmee Badhulika ; Naoki Fukata (National Institute for Materials Science)

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Kumaar Swamy Reddy Bapathi, Mostafa F. Abdelbar, Wipakorn Jevasuwan, Qinqiang Zhang, Pramod H. Borse, Sushmee Badhulika, Naoki Fukata. Enhancing silicon photodetector performance through spectral downshifting using core-shell CdZnS/ZnS and perovskite CsPbBr3 quantum dots. Nano Energy. 2024, 128 (), 109832. https://doi.org/10.1016/j.nanoen.2024.109832

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Silicon (Si) photodetectors do not efficiently capture photons in the UV region: this has been a major impediment to their application in several areas. However, quantum dots (QDs), which convert higher-energy photons into lower-energy photons via spectral downshifting, have emerged as promising candidates for enhancing the UV response of silicon photodetectors. In this study, we investigate the performance of Si photodetectors in the form of sensitized perovskite (CsPbBr3) quantum dots and compare them with core-shell (CdZnS/ZnS) quantum dots for spectral downshifting applications. Using monolithic integration of quantum dots over the silicon photodetector surface, we systematically analyze their electrical and optical characteristics to elucidate the impact of quantum dot structures on device performance. Spectral responsivity measurements reveal a significant enhancement in detector performance over a broad spectral range (300 nm - 1100 nm) after sensitization with quantum dots. Reflectance studies suggest that apart from spectral downshifting, the quantum dot layers act as anti-reflection coatings, contributing to overall performance enhancement. Additionally, current-voltage characteristics indicate the formation of a space charge region at the Si-quantum dot interface, further enhancing device performance. Further opto-electronic testing demonstrates the superior performance and stability of CdZnS/ZnS core-shell QD-sensitized devices compared to perovskite CsPbBr3 QD-devices. Our study provides valuable insights into the design and optimization of Si photodetectors with improved sensitivity and extended spectral response.

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