A self-powered, flexible ultra-thin Si/ZnO nanowire photodetector as full-spectrum optical sensor and pyroelectric nanogenerator

Scholarly Works

• Dong, M.-D.; Zhao, J.-H.; Zhu, J.-J.; Yu, H.; Wu, T.-Y.; Wang, H.-D.; Liu, X.-H.; Chen, Z.-G. Enhanced broadband photodetection in ZnO/black silicon heterojunctions from ultraviolet to short-wave infrared. Journal of Alloys and Compounds 2025, 1037, 182100. doi:10.1016/j.jallcom.2025.182100
• Tsanakas, M. D.; Jaros, A.; Fleming, Y.; Efthimiadou, M.; Voss, T.; Leturcq, R.; Gardelis, S.; Kandyla, M. Wavelength‐Selective, High‐Speed, Self‐Powered Isotype Heterojunction n + ‐ZnO/n‐Si Photodetector with Engineered and Tunable Spectral Response. Advanced Materials Technologies 2025, 10. doi:10.1002/admt.202401740
• Goel, V.; Kumar, H. A Study of Pyro-Phototronic Effect in ZnO/CdSe Colloidal Quantum Dots-Based Self-Powered Photodetectors. IEEE Transactions on Electron Devices 2024, 71, 5073–5080. doi:10.1109/ted.2024.3408775
• Goel, V.; Kumar, Y.; Rawat, G.; Kumar, H. Self-powered photodetectors: a device engineering perspective. Nanoscale 2024, 16, 9235–9258. doi:10.1039/d4nr00607k
• Zheng, X.; Dong, M.; Li, Q.; Liu, Y.; Di, X.; Lu, X.; Meng, J.; Li, Z. High‐Performance UV Photodetector via Energy Band Engineering and LSPR‐Enhanced Pyro‐Phototronic Effect in Au Decorated 2D‐PbI2/1D‐ZnO Heterojunction. Advanced Optical Materials 2024, 12. doi:10.1002/adom.202303177
• Yu, W.; Hao, L.; Guo, F.; Zhang, M.; Li, S.; Hu, B.; Zhang, B.; Liu, Y. High-performance broadband Si/ZnO heterojunction photodetector based on pyro-phototronic effect. Optical Materials 2024, 147, 114752. doi:10.1016/j.optmat.2023.114752
• Panda, S.; Hajra, S.; Song, H.; Jo, J.; Kim, N.; Hwang, S.; Choi, Y.; Kim, H. G.; Kim, H. J.; Mishra, Y. K. Pyroelectric based energy harvesting devices: hybrid structures and applications. Sustainable Energy & Fuels 2023, 7, 5319–5335. doi:10.1039/d3se01180a
• Goel, V.; Kumar, H. Study of Pyro-phototronic Effect in ITO/PQT-12 /CdSe QDs/Au based Self-Powered Photodetector. In 2023 International Conference on Recent Advances in Electrical, Electronics & Digital Healthcare Technologies (REEDCON), IEEE, 2023; pp 47–49. doi:10.1109/reedcon57544.2023.10151153
• Yu, W.; Hao, L.; Guo, F.; Zhang, M.; Li, S.; Hu, B.; Zhang, B.; Liu, Y. High-Performance Broadband Si/Zno Nanorods Array Heterojunction Photodetector Based on Interface-Enhanced Photo-Thermo-Electrical Coupling Effect. Elsevier BV 2023. doi:10.2139/ssrn.4576401
• Yu, W.; Hao, L.; Guo, F.; Zhang, M.; Li, S.; Hu, B.; Zhang, B.; Liu, Y. High-Performance Broadband Si/Zno Nanorods Array Heterojunction Photodetector Based on Interface-Enhanced Photo-Thermo-Electrical Coupling Effect. Elsevier BV 2023. doi:10.2139/ssrn.4616245
• doi:10.1002/9783527839742.ch5
• Nag, A.; Afsarimanesh, N.; Mukhopadhyay, S. C. Flexible Pyroelectric Sensors for Energy Harvesting Applications. Smart Sensors, Measurement and Instrumentation; Springer International Publishing, 2022; pp 153–168. doi:10.1007/978-3-030-99600-0_7
• Wang, Y.; Zhu, Y.; Gu, H.; Wang, X. Enhanced Performances of n-ZnO Nanowires/p-Si Heterojunctioned Pyroelectric Near-Infrared Photodetectors via the Plasmonic Effect. ACS applied materials & interfaces 2021, 13, 57750–57758. doi:10.1021/acsami.1c14319
• Lou, Z.; Shen, G. Flexible Image Sensors with Semiconducting Nanowires for Biomimic Visual Applications. Small Structures 2021, 2, 2000152. doi:10.1002/sstr.202000152

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