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林时胜
2023-05-17 18:06
  • 林时胜
  • 林时胜 - 教授 博导-浙江大学-信息与电子工程学院-个人资料

近期热点

资料介绍

个人简历


林时胜,博士,现为浙江大学信息电子工程学院教授/博士生导师,带领高效发电与信能一体化团队在高效光电和发电器件领域取得了一些重要研究成果,包括高效新型发电器件、高效石墨烯太阳电池、高效自驱动光电探测等领域。林时胜博士本科、博士毕业于浙江大学,导师为叶志镇院士;浙江大学和美国佐治亚理工联合培养博士,2008年获国家公派联合培养博士生奖学金赴美国佐治亚理工大学师从Z. L. Wang教授(王中林,中国科学院外籍院士)学习纳米科学与技术。2010年受Andre Geim教授(2010年诺贝尔物理学奖获得者)资助在英国曼切斯特大学物理与天文学系Andre Geim课题组开始石墨烯相关研究,后在浙江大学光电学院(合作导师童利民教授)与信电学院工作,开展二维材料物理器件交叉学科研究工作,执行自己的独立科研思想

研究领域


"""""新型高效光电与发电器件\r
太阳能电池\r
光电探测器\r
新型动态二极管发电机\r
石墨烯/半导体异质器件"

近期论文


Lu Y, Gao Y, Yu X, Zheng H, Shen R, Hao Z, Lin S,. Interfacial Built-In Electric Field-Driven Direct Current Generator Based on Dynamic Silicon Homojunction. Research, 2020, 5714754.\r
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Xuan Y, Chen H, Chen Y, Zheng H, Lu Y, Lin S,. Graphene/Semiconductor Heterostructure Wireless Energy Harvester through Hot Electron Excitation. Research, 2020, 3850389.\r
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Wu J, Qiu C, Feng S, et al. A synergetic enhancement of localized surface plasmon resonance and photo-induced effect for graphene/GaAs photodetector. Nanotechnology, 2019, 31(10): 105204.\r
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Lu Y, Hao Z, Feng S, et al. Direct-Current Generator Based on Dynamic PN Junctions with the Designed Voltage Output. iScience, 2019, 22: 58-69.\r
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Lin S, Shen R, Yao T, et al. Surface states enhanced dynamic schottky diode generator with extremely high power density over 1000 W m− 2. Advanced Science, 2019, 6(24): 1901925.\r
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Lu Y, Feng S, Shen R, et al. Tunable Dynamic Black Phosphorus/Insulator/Si Heterojunction Direct-Current Generator Based on the Hot Electron Transport. Research, 2019, 2019: 5832382.\r
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Hao Z, Jiang T, Lu Y, et al. Co-harvesting light and mechanical energy based on dynamic metal/perovskite Schottky junction. Matter, 2019, 1(3): 639-649.\r
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S Feng, B Dong, Y Lu, L Yin, B Wei, J Wang, S Lin*, Graphene/p-AlGaN/p-GaN electron tunnelling light emitting diodes with high external quantum efficiency. Nano Energy, 2019, 60, 836-840.\r
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S Feng, T Yao, Y Lu, Z Hao, S Lin*, Quasi-industrially produced large-area microscale graphene flakes assembled film with extremely high thermoelectric power factor. Nano Energy, 2019, 58: 63-68.\r
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S. Lin*, Y Lu, S Feng, Z Hao, Y Yan, A High Current Density Direct‐Current Generator Based on a Moving van der Waals Schottky Diode. Advanced Materials, 2019, 31(7): 1804398.\r
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J Wu, Y Lu, S Feng, Z Wu, S. Lin*, Z Hao, T Yao, X Li, The Interaction between Quantum Dots and Graphene: The Applications in Graphene‐Based Solar Cells and Photodetectors. Advanced Functional Materials, 2018, 28(50): 1804712.\r
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Z Hao, S Feng, Y Lu, S. Lin*, Gate tunable surface plasmon resonance enhanced graphene/Ag nanoparticles-polymethyl methacrylate/graphene/p-GaN heterostructure light-emitting diodes. Optics express, 2018, 26(19): 25257-25264.\r
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Wu, Z. Q., Yang, J. L., Manjunath, N. K., Zhang, Y. J., Feng, S. R., Lu, Y. H., ... & Lin, S. S. (2018). Gap‐Mode Surface‐Plasmon‐Enhanced Photoluminescence and Photoresponse of MoS2. Advanced Materials, 2018, 30(27), 1706527.\r
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Wu, J., Lu, Y., Wu, Z., Li, S., Zhang, Q., Chen, Z., Lin, S., & Liu, Q. (2018). Two-dimensional molybdenum disulfide (MoS2) with gold nanoparticles for biosensing of explosives by optical spectroscopy. Sensors and Actuators B: Chemical, 261, 279-287.\r
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Y. Lu, S. Feng, Z. Wu, Y. Gao, J. Yang, Y. Zhang, Z. Hao, J. Li, E. Li, H. Chen, S. Lin*, Broadband surface plasmon resonance enhanced self-powered graphene/GaAs photodetector with ultrahigh detectivity, Nano Energy 47 (2018) 140-149.\r
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J. Wu, Z. Yang, C. Qiu, Y. Zhang, Z. Wu, J. Yang, Y. Lu, J. Li, D. Yang, R. Hao, E. Li, G. Yu &S. Lin, Enhanced performance of a graphene/GaAs self-driven near-infrared photodetector with upconversion nanoparticles, Nanoscale 2017, 10 (17), 8023-8030.\r
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S. Lin*; Y. Lu; J. Xu; S. Feng; J.-F. Li, High performance Graphene/semiconductor van der Waals Heterostructure Optoelectronic Devices. Nano Energy. 40,122 (2017)\r
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J. Wu; S. Feng; Z. Wu; Y. Lu; S. Lin*, Multi-type quantum dots photo-induced doping enhanced graphene/semiconductor solar cell. RSC Advances 7, 33413-33418. (2017)\r
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H. Zhong; J. Xia; F. Wang; H. Chen; H. Wu; S. Lin*, Graphene‐Piezoelectric Material Heterostructure for Harvesting Energy from Water Flow. Advanced Functional Materials.27,1604226 (2017)\r
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Y. Lu; Z. Wu; W. Xu; S. Lin*, ZnO quantum dot-doped graphene/h-BN/GaN-heterostructure ultraviolet photodetector with extremely high responsivity. Nanotechnology 27, 48LT03. (2016)\r
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Z. Wu; Y. Lu; W. Xu; Y. Zhang; J. Li; S. Lin*, Surface plasmon enhanced graphene/p-GaN heterostructure light-emitting-diode by Ag nano-particles. Nano Energy 30, 362-367. (2016)

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