Zhubing He

2019-01-14

Dr. Zhubing He has been engaged in the research of photovoltaic cells, nanomaterials, optoelectronic devices, and thin film preparation technology for many years. He has comprehensive knowledge and practical experience in the research and development of photovoltaic photothermal technology, heat and mass transfer, and low-temperature plasma discharge technology. To develop a solar full-spectrum integrated power generation technology with an overall conversion efficiency of more than 30%. Especially focus on the research of interface physics and chemistry of materials, devices and systems. These include: 1) new photovoltaic cells with high conversion efficiency; 2) interface carrier transport and recombination; 3) interface photothermal conversion based on nano-optics; 4) organic-inorganic hybrid phase change heat storage materials; 5) photovoltaics Co-generation technology with CSP.

Latest published articles:

1. B. Tu, Y.F. Shao, W. Chen, Y.H. Wu, X. Li, Y.L. He, J.X. Li, F.Z. Liu, Z. Zhang, Y. Lin, X.Q. Lan, L.M. Xu, X.Q. Shi, A.M.C. Ng, H.F. Li,* L.W. Chung, A.B. Djurišic´, and Z.B. He*, “Novel Molecular Doping Mechanism for n-Doping of SnO2 via Triphenylphosphine Oxide and Its Effect on Perovskite Solar Cells”, Adv. Mater. 2019, 31, 1805944.
2. B.B. Yu, M. Liao, J.X. Yang, W. Chen, Y.D. Zhu, X.S. Zhang, T. Duan, W.T. Yao*, S.H. Wei* and Z.B. He*, “Alloy-induced phase transition and enhanced photovoltaic performance: the case of Cs3Bi2I9-xBrx perovskite solar cells”. J. Mater. Chem. A, 2019, 7,8818-8825
3. J.W. Xiu, Y.F. Shao, L.X. Chen, Y. Feng, J.F. Dai, X.S. Zhang, Y. Lin, Y.D. Zhu, Z.G. Wu, Y.N. Zheng, H. Pan,* C. Liu, X.Q. Shi, X. Cheng, and Z.B. He*, “Defning the composition and electronic structure of large-scale and single-crystalline like Cs2AgBiBr6 films fabricated by capillary-assisted dip-coating method”. Mater. Today Energy, 2019, 12, 186-197.
4. W. Chen, Y.C. Zhou, G.C. Chen, Y.H. Wu, B. Tu, F.Z Liu, L. Huang, A.M.C. Ng, A.B. Djurišic´,* and Z.B. He*, “Alkali Chlorides for the Suppression of the Interfacial Recombination in Inverted Planar Perovskite Solar Cells”, Adv. Energy Mater., 2019, 9, 1803872.
5. D.D. Zhao, Y.H. Wu, B. Tu, G.C. Xing, H.F. Li and Z.B. He*, “Understanding the Impact of Cu-In-Ga-S Nanoparticles Compactness on Holes Transfer of Perovskite Solar Cells”, Nanomater., 2019, 9, 286.
6. G.T. Pang, X.Q. Lan, R.X. Li, Z.B. He*, and R. Chen*, “Influence of mixed organic cations on the structural and optical properties of lead tri-iodide perovskites”, Nanoscale, 2019, 11,5215-5221.

Journal Papers

1. Bin-Bin Yu, Leiming Xu, Min Liao, Yinghui Wu, Fangzhou Liu, Zhenfei He, Jie Ding, Wei Chen, Bao Tu, Yi Lin, Yudong Zhu, Xusheng Zhang, Weitang Yao, Aleksandra B. Djurišic´, Jin-Song Hu, and Zhubing He*, “Synergy Effect of Both 2,2,2-Trifluoroethylamine Hydrochloride and SnF2 for Highly Stable FASnI3-xClx Perovskite Solar Cells”, Solar RRL, 2018, 3,1800290.
2. Z. Q. Ying, W. Chen, Y. Lin, Z. F. He, T. Chen, Y. D. Zhu, X. S. Zhang, X. Yang,* A. B. Djurišic´, Z. B. He*, “Supersmooth Ta2O5/Ag/Polyetherimide Film as the Rear Transparent Electrode for High Performance Semitransparent Perovskite Solar Cells”, Advanced Optical Materials, 2018, 7,1801409.
3. Fengxia Liang, Yi Lin, Zhenfei He, Wei Chen, Yudong Zhu, Tian Chen, Lin Liang, Suman Ma, Yinghui Wu, Bao Tu, Dong Wang, Zhixiang Zhang, Linbao Luo* and Zhubing He*, “Promising ITO-free perovskite solar cells with WO3-Ag-SnO2 as transparent conductive oxide”, Journal of Materials Chemistry A, 2018, 6,19330.
4. Yinghui Wu, Wei Chen, Yi Lin, Bao Tu, Xiaoqi Lan, Zhenggang Wu, Ruchuan Liu,* Aleksandra B. Djurišić, and Zhu Bing He*, “General Method To Define the Type of Carrier Transport Materials for Perovskite Solar Cells via Kelvin Probes Microscopy”, ACS Applied Energy Materials, 2018, 1, 3984−3991.
5. W. Chen, Y.C. Zhou, L.J. Wang, Y.H. Wu, B. Tu, B.B. Yu, F.Z. Liu, H.W. Tam, G. Wang, A. B. Djurišić,* L. Huang,* Z.B. He*, “Molecular Doped Nickel Oxide: Verified Charge Transfer and High Efficient Planar Inverted Mixed Cations Perovskite Solar Cell”, Adv. Mater. (IF=19.79) 2018, 30, 1800515.
6. W. Chen, Y.H. Wu, J. Fan, A. B. Djurišić,* F.Z. Liu, H.W. Tam, A. Ng, C. Surya, W.K. Chan, D. Wang, Z.B. He*, “Understanding the doping effect on NiO: towards high performance inverted perovskite solar cells”, Adv. Energy Mater. (IF=16.72), 2018, 8, 1703519.
7. Y. Li, F.Z. Liu, M. Waqas, T. Leung, H.W. Tam, X.Q. Lan, B. Tu, W. Chen, A. B. Djurišić, W. Chan and Z.B. He*, “Formamidinium-based lead halide perovskites: structure, properties, and fabrication methodologies”, Small Methods, 2018, 2, 1700387.
8. W. Chen, Y.H. Wu, B. Tu, F.Z. Liu, A. B. Djurišić*, Z.B. He*, “Inverted planar organic-inorganic hybrid perovskite solar cells with NiOX hole-transport layers as light-in window”, Appl. Surf. Sci., 2018, 1802665.
9. F.H. Zhao, X. Gao, X. Fang, Y.D. Glinka, X.Y. Feng, Z.B. He*, Z.P. Wei, R. Wang*, “Interfacial-Field-Induced Increase of the Structural Phase Transition Temperature in Organic-Inorganic Perovskite Crystals Coated with ZnO Nano-Shell”, Adv. Mater. Interfaces, 2018, 7, 1800301.
10. K.K. Tehare, S.T. Navale, F.J. Stadler, Z.B. He, H.T. Yang, X.B. Xiong, X.K. Liu*, R.S. Mane, “Enhanced DSSCs performance of TiO2 nanostructure by surface passivation layers”, Mater. Res. Bull. 2018, 99, 491-495
11. D.D. Zhao, B. Tu, Y.H. Wu, D. Wang, G.C. Xing*, H.F. Li, Z.B. He*, “Understanding the holes-transport function of Discrete Cu-In-Ga-S nanoparticles film for inverted planar perovskite solar cells”, IEEE J. Photovoltaics, 2018,18020063.
12. W. Chen, F.Z. Liu, X.Y. Feng, A. B. Djurišić,* W. Chan and Z.B. He*, “Cesium doped NiOx as an efficient hole extraction layer for inverted planar perovskite solar cells”, Adv. Energy Mater. (IF=16.72), 2017, 7, 1700722. (Back Inside Cover and Top Ten hot paper in the publishing month)
13. W. Chen, L.M. Xu, X.Y. Feng, J.S. Jie, and Z.B. He*, “Metal Acetylacetonate Series in Interface Engineering for Full Low-Temperature Processed, High-Performance, and Stable Planar Perovskite Solar Cells with Conversion Efficiency over 16% in 1 cm2 Scale”, Adv. Mater. (IF=19.79) 2017, 29(16), 1603923. (Top Ten hot paper in the publishing month and High Citation Paper in SCI website)
14. X.Y. Feng, H.M. Su, Y.H. Wu, H. Wu, J. Xie, X.K. Liu, J. Fan, J.F. Dai*, and Z.B. He*, “Photon-generated Carriers Excited Superoxide Species Inducing Long-term Photoluminescence Enhancement of MAPbI3 Perovskite Single Crystals”, J. Mater. Chem. A (IF=8.86), 2017, 5, 12048.
15. W. Chen, K.W. Li, Y. Wang, X.Y. Feng, Z.W. Liao, Q.C. Su, X.N. Lin, and Z.B. He*, “Black Phosphorus Quantum Dots for Holes Extraction of Typical Planar Hybrid Perovskite Solar Cells”, J. Phys. Chem. Lett. (IF=9.35), 2017, 8 (3), 591-598.
16. W. Chen, S. Luo, Z. Wan, X. Feng, X. Liu, and Z.B. He*, “Ruthenium Acetylacetonate in Interface Engineering for High Performance Planar Hybrid Perovskite Solar Cells”, Opt. Exp. (IF=3.30), 2017, 25(8), A253.
17. X.K. Liu*, J. Wu, W.J. Yu, L. Chen, Z.H. Huang, H. Jiang, J.Z. He, Q. Liu, Y.M. Lu, D.L. Zhu, and Z.B. He*, “Monolayer WxMo1-xS2 Grown by Atmospheric Pressure Chemical Vapor Deposition: Bandgap Engineering and Field Effect Transistors”, Adv. Func. Mater. (IF=12.12), 2017, 27, 1606469.
18. Deng H, S.J. Yuan, X.K. Yang, F.S. Cai, H. Chao , K.K. Qiao , J. Zhang, J. Tang, H.S. Song*, and Z.B. He*, “Efficient and stable TiO2/Sb2S3 Planar Solar Cells from absorber crystallization and Se-atmosphere annealing”, Mater. Today Energy, 2017, 3, 15-23.
19. Djurisic, A.B., F.Z. Liu, H.W. Tam, M.K. Wong, A. Ng, Surya, C, W. Chen, Z.B. He, “Perovskite solar cells – An overview of critical issues” Prog. Quat. Electr. 2017, 53, 1-37. (1 citations)
20. M.K. Wong, F.Z. Liu, C.S. Kam, T.L. Leung, H.W. Tam, A.B. Djurisic*, J. Popovic, H.K. Li, K. Shih, K.H. Low, W.K. Chan, W. Chen, Z.B. He, A. Ng, C. Surya, “Synthesis of Lead-Free Perovskite Films by Combinatorial Evaporation: Fast Processes for Screening Different Precursor Combinations” Chem. Mater. 2017, 29(23), 9946-9953. (0 citations)
21. X. Han, K.B. He, Z.B. He, Z.Y. Zhang*, “Tungsten-based highly selective solar absorber using simple nanodisk array” Opt. Exp. 2017, 25(24), A1072-A1078. (0 citations)
22. X. Han, F.Y. Zhao, K.B. He, Z.B. He, Z.Y. Zhang”, “Near-perfect absorber of infrared radiation based on Au nanorod arrays” J. Nanophoton. 2017, 11(1), 016018. (0 citations)
23. P.K. Xia, X.W. Feng, R.J. Ng, S.J. Wang, D.Z. Chi, C.Q. Li, Z.B. He, X.K. Liu, K.W. Ang”, “Impact and Origin of Interface States in MOS Capacitor with Monolayer MoS2 and HfO2 High-k Dielectric” Sci. Rep. 2017, 7, 40669. (2 citations)
24. D. Wu, X.H. Tang, K. Wang, Z.B. He, X.Q. Li*, “An Efficient and Effective Design of InP Nanowires for Maximal Solar Energy Harvesting” Nano. Res. Lett. 2017, 12, 604. DOI: 10.1186/s11671-017-2354-8. (0 citations)
25. J.C. Zhang, K. Zhang*, J.Z. Li*, Z.B. He, “A weak Galerkin method for diffraction gratings”, Appl. Anal. 2017, 96, 190-214.
26. X.K. Liu*, Y. Zhang, Q. Liu, J.Z. He, L. Chen, K.L. Li, F. Jia, Y.X. Zeng, Y.M. Lu, W.J. Yu, D.L. Zhu, W.J. Liu, J. Wu, Z.B. He, K.W. Ang*, “Band alignment of ZnO/multilayer MoS2 interface determined by X-ray photoelectron spectroscopy”, Appl. Phys. Lett. 2017, 109, 071602.
27. X.K. Liu, K.W. Ang*, W.J. Yu, J.Z. He, X.W. Feng, Q. Liu, H. Jiang, D. Tang, J. Wen, Y.M. Lu, W.J. Liu, P.J. Cao, S. Han, J. Wu, W.J. Liu, X. Wang, D.L. Zhu*, Z.B. He*, “Black Phosphorus Based Field Effect Transistors with Simultaneously Achieved Near Ideal Subthreshold Swing and High Hole Mobility at Room Temperature” Sci. Rep. 2016, 6, 24920.
28. W. Chen, Y.D. Zhu, Y.Z. Yu, L.M. Xu, G.N. Zhang, and Z.B. He*, “Low Cost and Solution Processed Interfacial Layer Based on Poly(2-ethyl-2-oxazoline) Nanodots for Inverted Perovskite Solar Cells”, Chem. Mater. (IF=9.40) 2016, 28, 4879-4883.
29. W. Chen, G.N. Zhang, L. Xu, R. Gu, Z. Xu, H. Wang, and Z.B. He*, “Low temperature processed, high-performance and stable NiOx based inverted planar perovskite solar cells via a poly(2-ethyl-2-oxazoline) nanodots cathode electron-extraction layer”, Mater. Today Energy, 2016, 1-2, 1-10.
30. S.J. Yuan, H. Deng, D.D. Dong, X.K. Yang, K.K. Qiao, C. Hu, H.B. Song, H.S. Song*, J. Tang, and Z.B. He*, “Efficient planar antimony sulfide thin film photovoltaics with large grain and preferential growth”, Sol. Energy Mater. Sol. Cell (IF=4.78), 2016, 157, 887–893. (11 citations)
31. S.X. Lin, Y.J. Chen, X.P. Tan, F. Song, E.Y.B. Pun, Z.B. He*, J.X. Pu*, “Catalytic performance of Fe3O4 nanoparticles for cyclocondensation synthesis of thiacrown ethers”, Mater. Res. Exp., 2015, 2, 015010.
32. J. Zhang, F. Song, Z.B. He, Y.L. Liu, Z.Y. Chen, S.X. Lin, L. Huang, W. Huang, “Wide-Range Tunable Fluorescence Lifetime and Ultrabright Luminescence of Eu-Grafted Plasmonic Core-Shell Nanoparticles for Multiplexing” Small 2016,12,397-404.
33. C. Li, W. Chen, D. Wu, D.H. Quan, Z.M. Zhou, J.J. Hao, J. Qin, Y.W. Li, Z.B. He, K. Wang*, “Large Stokes Shift and High Efficiency Luminescent Solar Concentrator Incorporated with CuInS2/ZnS Quantum Dots” Sci. Rep. 2015, 5, 17777. (22 citations)
34. X.K. Liu, J.Z. He, D. Tang, Q. Liu, J. Wen, W.J. Yu, Y.M. Lu, D.L. Zhu, W.J. Liu, P.J. Cao, S. Han, J.S. Pan, W.J. Liu, K.W. Ang, Z.B. He, “Band alignment of atomic layer deposited high-k Al2O3/multilayer MoS2 interface determined by X-ray photoelectron spectroscopy” J. Alloy Comp. 2015, 650, 502-507. (3 citations)
35. X.K. Liu, J.Z. He, Q. Liu, D. Tang, J. Wen, W.J. Liu, W.J. Yu, J. Wu, Z.B. He, Y.M. Lu, D.L. Zhu, W.J. Liu, P.J. Cao, S. Han, K.W. Ang, “Low temperature carrier transport study of monolayer MoS2 field effect transistors prepared by chemical vapor deposition under an atmospheric pressure” J. Appl. Phys. 2015, 118(12),124506. (2 citations)
36. X.K. Liu*, J.Z. He, Q. Liu, D. Tang, F. Jia, J. Wen, Y.M. Lu, W.J. Yu, D.L. Zhu, W.J. Liu, P.J. Cao, S. Han, J.S. Pan, Z.B. He, K.W. Ang, “Band alignment of HfO2/multilayer MoS2 interface determined by X-ray photoelectron spectroscopy: Effect of CHF3 treatment”, Appl. Phys. Lett. 2015, 107, 101601.

Research

【研究领域】
何祝兵博士多年来一直从事光伏电池、纳米材料及光电子器件、薄膜制备技术的研究,在光伏光热技术研发、传热传质、低温等离子体放电技术的研究有着丰富的知识积累和实践经验,致力于开发系统整体转换效率超过30%的太阳能全光谱集成发电技术。尤其专注于材料、器件和系统的界面物理化学的研究。其中主要包括:1)高转换效率的新型光伏电池;2)界面载流子传输与复合;3)基于纳米光学的界面光热转化;4)有机无机杂化相变储热材料;5)光伏与光热的协同发电技术。

【科研情况】

何祝兵博士,现任南方科技大学材料系副教授,材料专业工业实习负责人,深圳市全光谱发电功能材料重点实验室主任,深圳市“孔雀计划”B类人才。曾主持完成国家863计划课题1项、1项国家自然科学基金(2014-2016)和1项深圳市孔雀创新项目(2014-2016),现主持1项深圳市学科布局项目(2016-2018)、1个深圳市重点实验室平台项目(2016-2018),1项国自然面上项目(2018-2021),1项科技部中国-克罗地亚双边合作项目(2018-2019),以骨干身份参与国家重大研发计划纳米专项项目1项(2016-2021)。在Adv.Mater.、Adv. Energy Mater.、Adv. Func. Mater.、等国际高水平杂志发表论文70余篇,他引超过2700次,H指数28。获得36项光伏光热技术及装备授权专利,含2项PCT美国专利和1项PCT欧洲专利。

Teaching

【所授课程】

1. 何祝兵,先进太阳能材料与技术,研究生课程
2. 何祝兵,工程电路与电子基础,本科生课程
3. 何祝兵,光伏光热技术导论,本科生课程
4. 何祝兵,工业实习,本科生课程

【教学荣誉】

2018年度南方科技大学优秀教学奖