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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.
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.
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.
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.
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.
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.
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.
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.
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.
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.
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.
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.
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.
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.
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.
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.
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)
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)
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)
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)
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)