博士/教授，硕士/博士研究生导师

EMAIL/zhaojinsheng@lcu.edu.cn

科研方向：（1）光催化产氢/二氧化碳还原;（2）电催化ORR/OER; 锂离子电池;

(3)    电致变色

讲授课程

《化工专业英语》；《精细有机合成单元反应》；《精细化工工艺学》

教育及工作经历

2013-至今，44118太阳成城集团，教授（三级）；

2006-2012，44118太阳成城集团，副教授

2005-2006，44118太阳成城集团，讲师

2002-2005，中国科学院理化技术研究所 物理化学博士学位；

1999-2002，中国石油大学（华东）应用化学硕士学位；

1993-1996，沈阳化工大学 材料科学与工程学院 高分子化工专业；

科研项目

国家自然科学基金青年基金，20906043，有电子媒介体参与的微生物燃料电池的产电制及媒介体的固定化研究，2010-01至2012-12,20万元，已经结题，主持

国家自然科学基金面上项目，51473074，含三苯胺单元的可溶性D-A型共轭聚合物的合成、电致变色性质及器件制备研究，2015-01至2018-12, 80万元，已经结题，主持。

国家自然科学基金面上项目，22172069，供体-受体型共轭聚合物/石墨烯/氮化碳异质结催化剂的构建、产氢活性及机制研究，2022-01至2025-12, 60万元，在研

国家自然科学基金面上项目（合作申请），22272070，原位探究负载型金属催化剂在光热催化CO2甲烷化中寿命和失活机制，2023-01至2025-12,10万元，在研

获奖情况

2011年 生物电分析化学新方法研究；山东省自然科学奖二等奖，排名第2.

2015年 山东省青年科技奖

2009年 生物电分析化学新方法研究；山东省高等学校优秀科研成果奖一等奖，排名第2.

2012年 新型纳米与导电聚合物材料；山东省高等学校优秀科研成果奖一等奖，排名第二

2015年，基于廉价金属的能源催化体系及新型能源材料的构建与性能研究；山东省高等学校优秀科研成果奖三等奖，排名第2.

2017年，功能导电聚合物的合成及其光电性质研究；山东省高等学校科学技术奖，排名第一

论著一览

[1]    J.M. Zhao, Y. Yuan, F. Zhao, W. Han, Q. Yuan, M.M. Kou, J.S. Zhao* et al. Identifying the facet-dependent active sites of Cu2O for selective C-N coupling toward electrocatalytic urea synthesis. Appl Catal. B: Environ., 340(2024) 123265.

[2]    S.L. Ming, Z.S. Li, J.Y. Wang, H. Zhang*, J.S. Zhao*. Toward soluble high-performance electrochromic polymer: Optimizing cross-link density. Chem Eng J, 479 (2024), 147623.

[3]    Y.M. Cai, G.Y. Zhao, Q. Yuan*, J.S. Zhao*. Elaborate designed sandwich structural faradic material NPC/NiMn-LDH/MXene for enriched ion accessible transfer pathways in capacitive deionization. Chem Eng J, 484(2024), 149491.

[4]    H.G. Yue, X.P. Ju, S.L. Ming, Y. Zhang, J.S. Zhao*, Y.C. Du*, J.H. Zhang*. Molecular design of multifunctional integrated conjugated polymers with photoluminescence and electrochromic properties and constructing the electrochromic devices. Chem Eng J, 502 (2024), 157931.

[5]    D.B. Wu, F. He, Y.H. Dai, Y. Xie, Y. Ling, L.J. Liu, J.S. Zhao, H. Ye, Y. Hou. A heterostructured ZnAl-LDH@ZIF-8 hybrid as a bifunctional photocatalyst/adsorbent for CO2 reduction under visible light irradiation. Chem Eng J, 446 (2022), 137003.

[6]    Y.Q. Song, F. Zhao, W.Q. Zhang, J.S. Zhao*, F.P. Meng*, A.F. Li*. The insertion of thiazolo[5,4-d]thiazole unit in covalent triazine framework for boosting the photocatalytic capacities in both selective aerobic oxidation of sulfides and amines. J Catal., 433 (2024), 115490.

[7]    Y.M. Cai, F. Zhao, J.S. Zhao*, Y. Wang*. Flexible construction of three-dimensional continuous conductive structure by hollow carbon sphere and CNT for promoted ions transport in flow-electrode capacitive deionization. Sep. Purif. Technol., 337 (2024), 126405.

[8]    Y. Lu, Y.Q. Wang, J. Liu, Y.X. Chen, K. Peng, A.Q. Zhang*, Y. Xie*, Y.C. Ma, J.S. Zhao*. Embedding Pt in Ni-MOF/CdS organic-inorganic hybrid materials as electron channel to promote photogenerated carrier separation for enhanced photocatalytic hydrogen evolution under visible light. Sep. Purif. Technol., 350 (2024), 128000.

[9]    Z.B. Li, F. Zhao, Y. Chu, F.P. Meng, Y.Y. Dong, H.Y. Zhang*, J.S. Zhao*, Y.C. Du*, S.B. Wang. Fused-thiophene and sulfone-based donor-acceptor conjugated polymers for enhanced hydrogen production. ACS Sustainable Chem. Eng, 12 (2024), 1072-1083.

[10]    W.Q. Zhang, Y. Chu*, C. Wang, Y.T. Zhao, W. Chu*, J.S. Zhao*. Enhancing photocatalytic hydrogen production efficiency in all-inorganic lead-free double perovskites via silver doping-induced efficient separation of photogenerated carriers. Sep. Purif. Technol., 357 (2025), 130111.

[11]    J.M. Zhao, M.M. Kou, Q. Yuan, Y. Yuan*, J.S. Zhao*. Hydrogen spillover-bridged interfacial water activation of WCx and hydrogen recombination of Ru as dual active sites for accelerating electrocatalytic hydrogen evolution. Small, 2024, 2406022.

[12]    Z.B. Li, Y. Chu, F.P. Meng, Y.Y. Dong, J.S. Zhao*, H.Y. Zhang*, X.J. Zhong*. Cross-linked conjugated polymers based on triazine and polybranched polycyclic thiophene for improved photocatalytic hydrogen evolution. J. Mater. Chem. A., 12 (2024), 25761-25772.

[13]    T.F. Mi, F. Zhao, Y.Y. Dong, J. Zhao, J.S. Zhao, X.J. Zhong, N.Q. Zhang, P. Tsiakaras. Enhanced photocatalytic hydrogen evolution activity of co-catalyst free S-scheme polymer heterojunctions via ultrasonic assisted reorganization in solvent. Journal of Colloid and Interface Science., 636 (2023), 230-244.

[14]    S.L. Zhang, F. Zhao, G. Yasin, Y.Y. Dong, J.S. Zhao, Y. Guo, P. Tsiakaras, J. Zhao. Efficient photocatalytic hydrogen evolution: Linkage units engineering in triazine-based conjugated porous polymers. J. Colloid Interf. Sci., 637 (2023), 41-54.

[15]    Y. Zhang, Y.B. Shang, M. Cheng, Q. Guo, X.Y. Liu, B.Y. Zeng, D.N. Wang, G.X. Zhang*, Z.F. Yan, Jinsheng Zhao*. Direct electrochemical N2 oxidation to nitrate on supportive Pt/CeO2. Chem. Commun., 60 (2024), 14992-14995.

[16]    Z.R. Zhang, X. Han, J.H. Zhang*, Y.Y. Dong, J.S. Zhao*, Q. Xu, N.Q. Zhang*. Revolutionizing photothermal CO₂ hydrogenation with ceria-based catalysts. Nano Research, 18(2025), 94906998.

[17]    W. Tang, L.X. Luo, Z.Y. Fan, A.Q. Zhang*, Y.C. Ma, Y. Xie*, J.S. Zhao*. CdS nanorods decorated with non-precious metal Bi spheres for photocatalytic hydrogen production. Mater. Today Chemistry, 37 (2024), 102000.

[18]    R.L. Zhao, Y.K. Wang, M.M. Kou, P.Z. Li, J.M. Zhao, Y.M. Cai, X. Zhang, Q. Yuan*, J.S. Zhao*. Novel metal-organic anode material by in-situ chelating Ni2+ with tannic acid on carbon nanotube for high-performance Li storage. J. Power. Sources, 622 (2024), 235360.

[19]    Z.S. Li, X. Wang, X.Y. Liu, H.T. Liu, S.L. Ming*, J.S. Zhao*. Regulation of Br on molecular aggregation, film morphology and electrochromic performance of polythiophene derivatives. Sol Energ Mat. Sol. C. 278(2024), 113205.

[20]    M. Wang, Y. Chu, F.P. Meng, J.S. Zhao*, H.Y. Zhang*, S.B. Wang, J.H. Zhang*. Enhancing photocatalytic hydrogen production in conjugated porous polymers through donor-π-donor fragment insertion. Int J Hydrogen Energ, 79 (2024), 492-502.

[21]    J.M. Zhao, Y. Yuan, M.M. Kou, F.P. Meng, W. Lin*, J.S. Zhao*, P. Tsiakaras*. Carbon dioxide and nitrate reduction reactions tailoring kinetics over Cu2O with mesoporous carbon channels for boosting electrocatalytic urea synthesis. J. Environ. Chem. Eng., 12 (2024), 114959.

[22]    G.Y. Zhao, F. Zhao*, X. Wang, S.L. Ming*, J.S. Zhao*. Yellow-transmissive blue electrochromic polymers based on triphenylamine and ProDOT derivatives. Colloids and Surfaces A, 703 (2024), 135380.

[23]    M. Liu, F. Zhao, Y. Chu, J.S. Zhao*, F.P. Meng*, Y.F. Han*. Construction of thiazolo[5,4-d]thiazole based covalent triazine framework/g-C3N4 heterojunction catalysts for highly efficient photocatalytic H2 evolution. Chem. Eng. Sci, 288 (2024), 119827.

[24]    Y.R. Li, H.M. Du*, Y.F. Su, J.S. Zhao*, K.G. Qu, X.X. Zhang, Y. Zhang, Y.Y. Dong, Z.R. Guo. Construction of Heterostructured NiS/NiSe2 and their application in electrocatalytic water splitting. Int J Hydrogen Energ, 66, (2024), 286-293.

[25]    Y. Chu, F. Zhao, F.P. Meng, W.Q. Zhang*, J.S. Zhao*, X.J. Zhong*. Donor-acceptor type conjugated porous polymers based on benzotrithiophen and triazine derivatives: Effect of linkage unit on photocatalytic water splitting. Int J Hydrogen Energ, 64 (2024), 109-119.

[26]    Y.Y. Dong, R.Y. Song, Z.R. Zhang, X. Han, B. Wang, S. Tao, J.S. Zhao*, Z. Chen*, X.D. Yi, N.Q. Zhang*. Advances in photothermal CO2 hydrogenation catalysis for C1 molecules. Cell Reports Physical Science, 5 (2024), 102227.  

[27]    Z.B. Li, Y. Chu, T.F. Mi, J.S. Zhao*, F.P. Meng*. Enhanced photocatalytic H2 evolution over conjugated polymer/Au@TiO2 ternary heterojunction under visible light: Enriched photons input from polymers. Colloids and Surfaces A, 692 (2024), 133991.

[28]    S.L. Ming, Z.S. Li, H. Sun, R.Y. Du, J.L. Zhang, J.S. Zhao*. Ether chain modified electrochromic polymer based on EDOT and benzene. Eur Polym J, 218(2024), 113364.

[29]    Y.W. Li, W.J. Zhang, J. Li, H.Y. Ma, H.M. Du, D.C. Li, S.N. Wang*, J.S. Zhao*, J.M. Dou, L.Q. Xu*. Fe-MOF-Derived efficient ORR/OER bifunctional electrocatalyst for rechargeable Zinc-Air batteries. ACS Appl Mater. Interfaces, 12(2020), 44710-44719

[30]    F. Nie, H.H. Wen, X.D. Chong, X.P. Dai*, Y.K. Yang, J.S. Zhao*. Sulfur doping and heterostructure on NiSe@Co(OH)2 with facilitated surface reconstruction and interfacial electron regulation to boost oxygen evolution reaction. Fuel, 384 (2025), 133978.

[31]    X.D. Liu, F. Zhao, S.L. Ming, Y. Zhang*, J.S. Zhao*. Construction of two-dimensional porous polymers with crystalline or amorphous forms for near-infrared electrochromism. Eur Polym J., 208(2024), 112853.

[32]    Y.K. Yang, W. Jiang, Z.P. Yuan, J.S. Zhao*, S.J. Qu*. Harvest pitch-based carbon nanosheets by oxidation and in-situ template strategy for all-solid-state supercapacitors. J. Anal. Appl Pyrol. 179 (2024), 106461.

[33]    Y.K. Yang, G.S. Ni, L.Y. Liu*, J.S. Zhao*, S.J. Qu*. Designing P-doped graphite-like hierarchical porous carbon nanosheets from coal tar pitch for enhanced Zn-ion hybrid capacitors. Colloids and Surfaces A, 695 (2024), 134279.

[34]    Y.C. Duan, B. Hu, Y.P. Luo, Y. Xie*, Y. Chen, Y.F. Zhang*, Y. Ling, J.S. Zhao*. In situ growth of Mo-CoFe LDH on nickel foam for efficient oxygen evolution reaction. Electrochim Acta, 487 (2024), 144189.

[35]    K. Peng, S.H. Yu, Y.P. Luo, A.Q. Zhang*, Y. Xie*, Y.X. Luo, Y. Ling, J.S. Zhao*. Enhancement TiO2 photocatalytic hydrogen production via using ABO3 to construct heterojunction. Colloids and Surfaces A. 682 (2024), 132822.

[36]    Y. Xie*, Y.Q. Wang, Y.P. Zhou, F.H. Wang*, Y. Xu, S.L. Rao, J.S. Zhao*. Cation exchange strategy to construct Co-doped BiOBr nanosheets for high-efficient photocatalytic CO2 to CO. Appl Cataly A: Gen, 669 (2024), 119504.

[37]    H.G. Yue, M.Q. Guo, S.L. Ming, H.M. Du, J.S. Zhao*,J.H. Zhang*. Fine-tuning the color hue of the solution-processable electrochromic copolymers based on the diketopyrrolopyrrole, benzodithiophene and dithienosilole units. Colloids and Surfaces A., 684 (2024), 133094.

[38]    Y.J. Xue, G.Y. Zhao, W.Q. Zhang, J.S. Zhao*, F.P. Meng*, F. Zhao*. Linkage Unit Modulation of Triazine-Based Conjugated Porous Polymers/g-C3N4 Heterostructures To Boost Cocatalyst-Free Photocatalytic Water Splitting. ACS Appl. Polym. Mater., 6(2024), 11444-11456.

[39]    S.L. Ming, Z.S. Li, R.Y. Yi, J.S. Zhao*, K.W. Lin*, H. Zhang*. Influence of Cross-Link Density on Electrochromic Properties of Conjugated Polymer. ACS Appl. Polym. Mater., 6(12)(2024), 7161-7170.

[40]    X.L. Tan, J.Q. Zhong, Y.F. Tong*, L. Guo, Y. Xie*, J.S. Zhao*. Ionic covalent organic framework based quasi-solid-state electrolyte for high-performance lithium metal battery. Polymer, 2024, 127911.

[41]    X.J. Zhong, F.P. Meng, Y.Y. Dong, J.S. Zhao*, H.Y. Zhang*, Y.C. Du*. S-scheme heterojunction between donor-acceptor linear polymer and g-C3N4 via strengthened internal electric field for enhanced photocatalytic activity. Mater. Today Energy, 48 (2025), 101773.

[42]    Y. Lu, J. Liu, B. Hu, H.Y. Yang*, Y. Chen, Y. Xie*, Jinsheng Zhao*. Ni2P co-catalyst modification CdS enhancement hydrogen evolution and keeping strong stability under visible light. Sep. Purif. Technol, 360 (2025), 131104.

[43]    T.T. Hao, F. Zhao, Y.C. Du, S.L. Zhang, F.P. Meng, J.S. Zhao*, Y. Chu*, H.Y. Zhang*. Extending Conjugation Lengths of the linkage units in Triazine-Based Porous Polymers for Enhanced Photocatalysis. Small Methods, 2025, 2401744.

[44]    Fanpeng Meng, Fei zhao, Jinsheng Zhao*, Huayang Zhang*, Shaobin Wang. Diffusion-Controlled Charge Separation in Conjugated Polymer Heterojunctions for Visible Light-Driven Hydrogen Production. Sep. Purif. Technol., 360(2025), 131255.

[45]    X.L. Kang, X.R. Chang, J.S. Zhao*, A.F. Li*, F. Zhao*. Donor-Acceptor Conjugated Porous Polymers from Truxene and Triazine: Effect of Connecting Units on Photocatalytic Activity for Selective Oxidation of Amines and Sulfides. J. Colloid Interf Sci., 683 (2025), 532-545.