基本信息

王双印，国家杰出青年基金获得者、科睿唯安全球高被引科学家（化学、材料）, 爱思唯尔中国高被引学者(化学), 科技部重点研发计划首席科学家，基金委原创探索项目负责人。现为湖南大学二级教授，博士生导师。2006年本科毕业于浙江大学化工系，2010年在新加坡南洋理工大学获得博士学位，随后在美国凯斯西储大学， 德克萨斯大学奥斯汀分校、英国曼彻斯特大学（玛丽居里学者）开展研究工作。主要研究方向为电催化剂缺陷化学、有机分子电催化转化、热电耦合催化。代表性论文发表在国家科学评论，中国科学化学、材料，科学通报，Nature Chem., Nature Catalysis, Nature Sustainability, Nature Synthesis, JACS, Angew. Chem., Adv. Mater., Chem等期刊，总引用55000余次，H指数124，获中国青年科技奖、教育部青年科学奖、湖南省自然科学奖一等奖、中国侨届贡献一等奖、青山科技奖。

教育背景

2013~至今        教授，博导 湖南大学

2012~ 2013      玛丽居里学者  英国曼彻斯特大学,

2011~2012       博士后，美国德克萨斯大学奥斯汀分校，

2010~2011       博士后, 美国凯斯西储大学，
  
教育经历：
                2007~2010  博士生, 新加坡南洋理工大学                     
                2006~2006  在读研究生, 浙江大学           
                2005~2006 国际交换留学生, 日本福井大学
                2002~2006 本科, 浙江大学      
 
研究方向：电催化与电合成
电催化剂缺陷化学，中高温燃料电池，有机分子电催化转化，CO2电还原, 环境电催化

工作履历

学术兼职

Science Bulletin Associate Editor

Smart Molecuels, Associate Editor

Energy & Environmental Materials, Associate Editor

中国颗粒学会青年理事

《电化学》编委

Journal of Energy Chemistry, Section Editor

研究领域

电催化与电合成

电催化剂缺陷化学；

有机分子电催化转化；

质子交换膜燃料电池；

环境电催化、电化学提铀；

电化学分离强化；

科研项目

国家杰出青年基金（延续资助）、科技部重点研发计划、基金委原创探索项目、国家基金委重点支持项目、面上项目、青年项目，湖南省杰出青年基金项目，湖南省重点实验室项目等。

学术成果

2020-2025文章清单

(1) Zhu, Z. H.; Jiang, Y. M.; Xu, L. T.; An, Q. Z.; Nga, T. T. T.; Chen, J. L.; Fan, Y.; Liu, Q. H.; Dong, C. L.; Wang, S. Y.; Zou, Y. Q. Highly Efficient Synthesis of α-Amino Acids via Electrocatalytic C-N Coupling Reaction Over an Atomically Dispersed Iron Loaded Defective TiO2. Advanced Materials 2025, 37 (5), 2409864.

(2) Zhang, J.; Cui, L. T.; Wang, Y. X.; Wang, H. N.; Tao, L.; Cheng, Y.; Lu, S. F.; Xiang, Y.; Wang, S. Y. Electronic structure engineering of palladium nanoparticles by transition metal single atom supports for efficient carbohydrazide oxidation. Applied Catalysis B-Environment and Energy 2025, 365, 124927.

(3) Yan, X. Y.; Zhou, Y. S.; Wang, S. Y. Nano-High Entropy Materials in Electrocatalysis. Advanced Functional Materials 2025, 35 (2), 2413115.

(4) Liu, F. Q.; Chen, W.; Wang, T.; Zhang, J. C.; Yang, D. Y.; Dai, Y. H.; Liu, G. Z.; Zhou, J.; Wang, S. Y.; Guan, X. H. Efficient Electrosynthesis of Valuable para-Benzoquinone from Aqueous Phenol on NiRu Hybrid Catalysts. Angewandte Chemie-International Edition 2025, 64 (3), e202415438.

(5) Lin, L. G.; Cai, Z. W.; Niu, Y. F.; Wu, Y. J.; Wang, J. J.; Li, M. Y.; Li, D.; Wang, T. H.; Wang, Z. B.; Tao, L.; Wang, S. Y. H Induced Metal-Insulation Transition Boosts the Stability of High Temperature Polymer Electrolyte Membrane Fuel Cells. Angewandte Chemie-International Edition 2025, 64 (7), e202419919.

(6) Gao, X. F.; Pan, Y. P.; Qiu, J. H.; Peng, J.; Wang, S. Y.; Zou, Y. Q. Enhancing the Stability of Cu-Based Electrocatalyst via Fe Alloy in Electrocatalytic Formaldehyde Oxidation with Long Durability. Advanced Functional Materials 2025, 35 (12), 2417545.

(7) Gao, H. M.; Song, C.; Chen, R.; Wu, T. Y.; Zou, J.; Du, S. Q.; Dong, C. L.; Huang, Y. C.; Zhu, R. L.; Wang, Y. N.; Wang, S. Y. Activation of iridium site based on IrO2 catalysts towards highly stable PEM water electrolyzer. Chemical Engineering Science 2025, 302, 120912.

(8) Ding, J. J.; Huang, C.; Lyu, Y.; Jiang, S. P.; Wang, S. Y.; Zheng, J. Y. Sodium-mediated photoelectrochemical nitrogen-to-ammonia fixation. Applied Catalysis B-Environment and Energy 2025, 365, 124935.

(9) Zhu, Y. W.; Jiang, Y. M.; Li, H. J. W.; Zhang, D. C.; Tao, L.; Fu, X. Z.; Liu, M.; Wang, S. Y. Tip-like Fe-N4 Sites Induced Surface Microenvironments Regulation Boosts the Oxygen Reduction Reaction. Angewandte Chemie-International Edition 2024, 63 (11), e202319370.

(10) Zhou, Y. Y.; Zhong, H. J.; Chen, S. H.; Wen, G. B.; Shen, L.; Wang, Y. Y.; Chen, R.; Tao, L.; Wang, S. Y. Proton exchange membrane-based electrocatalytic systems for hydrogen production. Carbon Energy 2024, e629.

(11) Zhou, P.; Lv, X. S.; Huang, H. N.; Cheng, B. X.; Zhan, H. Y.; Lu, Y. K.; Frauenheim, T.; Wang, S. Y.; Zou, Y. Q. Construction of Ag―Co(OH)2 Tandem Heterogeneous Electrocatalyst Induced Aldehyde Oxidation and the Co-Activation of Reactants for Biomass Effective and Multi-Selective Upgrading. Advanced Materials 2024, 36 (26), 2312402.

(12) Zhou, H.; Liu, H.; Sun, Y. Y.; Jiang, L. Z.; Xiao, J. M.; Zhang, H. D.; Xie, H. J.; Li, L. N.; Wang, S. Y.; Han, L. Synergistic Effect of Single Atomic Ce Sites and CeO2 Nanoparticles for Boosting Oxygen Reduction Reaction. Advanced Energy Materials 2024, 15 (14), 2404689.

(13) Zhao, J. M.; Yuan, Y.; Zhao, F.; Han, W.; Yuan, Q.; Kou, M. M.; Zhao, J. S.; Chen, C.; Wang, S. Y. Identifying the facet-dependent active sites of Cu2O for selective C-N coupling toward electrocatalytic urea synthesis. Applied Catalysis B-Environment and Energy 2024, 340, 123265.

(14) Zhang, Y. Q.; Liu, J. J.; Xu, Y. F.; Xie, C.; Wang, S. Y.; Yao, X. D. Design and regulation of defective electrocatalysts. Chemical Society Reviews 2024, 53 (21), 10620-10659.

(15) Zhang, X. R.; Zhu, X. R.; Bo, S. W.; Chen, C.; Zhai, Q. F.; Li, S.; Tu, X. J.; Zheng, J. Y.; Wang, D. D.; Wei, X. X.; Chen, W.; Wang, T. H.; Li, Y. F.; Liu, Q. H.; Jiang, S. P.; Dai, L. M.; Wang, S. Y. Selective nitrogen fixation via Janus C-N coupling in co-electrolysis. Chem 2024, 10 (5), 1516-1527.

(16) Zhang, X. R.; Lyu, Y.; Chen, C.; Zheng, J. Y.; Jiang, S. P.; Wang, S. Y. Enhanced charge- carrier dynamics and efficient solar- to- urea conversion on Si- based photocathodes. Proceedings of the National Academy of Sciences of the United States of America 2024, 121 (8), e2311326121.

(17) Zhang, L.; Jin, P. Y.; Wu, Z.; Zhou, B.; Jiang, J. C.; Deng, A. M.; Li, Q. Y.; Hussain, T.; Zhang, Y. Q.; Liu, H. W.; Wang, S. Y. CuO/Co3O4 Bifunctional Catalysts for Electrocatalytic 5-Hydroxymethylfurfural Oxidation Coupled Cathodic Ammonia Production. Energy & Environmental Materials 2024, 7 (5), e12725.

(18) Zhang, F.; Chen, S. P.; Wang, G. J.; Wang, Y. Y.; Wang, S. Y. Oxygen Vacancy-Mediated Highly Selective and Efficient Uranium Extraction from Seawater. Acs Es&T Water 2024, 4 (6), 2702-2710.

(19) Zhang, D. C.; Zhou, Y. Y.; Zhu, Y. W.; Du, S. Q.; Huang, G.; Lin, J. Q.; Long, P.; Wang, T. H.; Tao, L.; Fu, X. Z.; Wang, S. Y. Ethylenediamine tetramethylenephosphonic acid boosting the electrocatalytic interface construct and proton transfer for high-temperature polymer electrolyte membrane fuel cells. Journal of Energy Chemistry 2024, 99, 159-164.

(20) Yang, M.; Jiang, Y. M.; Dong, C. L.; Xu, L. T.; Huang, Y. T.; Leng, S. F.; Wu, Y. D.; Luo, Y. X.; Chen, W.; Nga, T. T. T.; Wang, S. Y.; Zou, Y. Q. A self-reactivated PdCu catalyst for aldehyde electro-oxidation with anodic hydrogen production. Nature Communications 2024, 15 (1), 9852.

(21) Yang, C. M.; Zhang, L.; Lu, Y. X.; Zou, Y. Q.; Wang, S. Y. Designing efficient catalysts for electrocatalytic organic synthesis: From electronic structure to adsorption behavior. Matter 2024, 7 (2), 456-474.

(22) Xu, L. T.; Chen, W.; Wang, C. R.; Wu, W. J.; Yao, Y. L.; Huang, Z. F.; Wu, J. C.; Yang, M.; Wu, Y. D.; Xie, D. K.; Zou, Y. Q.; Wang, S. Y. Combining anodic alcohol oxidative coupling for C-C bond formation with cathodic ammonia production. National Science Review 2024, 11 (5), nwae134.

(23) Xie, D. K.; Yang, T. Y.; Ma, C. Y.; Dong, C. L.; Wang, S. Y.; Zou, Y. Q. Highly selective electrosynthesis of imines via electroreduction coupling of nitroarenes with aryl aldehydes on Co9S8 with positively charged sulfur vacancies. Chinese Journal of Catalysis 2024, 65, 206-216.

(24) Xie, C.; Chen, W.; Wang, Y. Y.; Yang, Y. H.; Wang, S. Y. Dynamic evolution processes in electrocatalysis: structure evolution, characterization and regulation. Chemical Society Reviews 2024, 53 (22), 10852-10877.

(25) Xiao, J. M.; Li, P.; Sun, Y. Y.; Liu, H.; Khan, J.; Zhang, H. D.; Zhou, H.; Su, Y. Q.; Wang, S. Y.; Han, L. Synergistic Effect of Nitrogen/Phosphorus Co-Doping and Molybdenum Carbide Induced Electron Redistribution of Carbon Layer to Boost Hydrogen Evolution Reaction. Chinese Journal of Chemistry 2024, 42 (1), 55-60.

(26) Xia, Z. C.; Xu, L. T.; Ma, C. Y.; An, Q. Z.; Bu, C. Y.; Fan, Y.; Lu, Y. X.; Pan, Y. P.; Xie, D. K.; Liu, Q. H.; Wang, S. Y.; Zou, Y. Q. Enhancing the Electrocatalytic Hydrogenation of Furfural via Anion-Induced Molecular Activation and Adsorption. Journal of the American Chemical Society 2024, 146 (35), 24570-24579.

(27) Xia, Z. C.; Ma, C. Y.; Fan, Y.; Lu, Y. X.; Huang, Y. C.; Pan, Y. P.; Wu, Y. D.; Luo, Q. Y.; He, Y. Q.; Dong, C. L.; Wang, S. Y.; Zou, Y. Q. Vacancy Optimized Coordination on Nickel Oxide for Selective Electrocatalytic Oxidation of Glycerol. ACS Catalysis 2024, 14 (3), 1930-1938.

(28) Wu, Z.; Liu, Y. J.; Wang, D. D.; Zhang, Y. Q.; Gu, K. Z.; He, Z. J.; Liu, L. M.; Liu, H. W.; Fan, J. C.; Chen, C.; Wang, S. Y. Cu@Co with Dilatation Strain for High-Performance Electrocatalytic Reduction of Low-Concentration Nitric Oxide. Advanced Materials 2024, 36 (11), 2309470.

(29) Wu, Y. J.; Huang, G.; Du, S. Q.; Li, M. Y.; Liu, Q.; Zhou, Y. Y.; Jiang, Z. Y.; Zhu, X. R.; Wang, Y. Q.; Wang, T. H.; Tao, L.; Wang, S. Y. Electrocatalysis Boosts the Methanol Thermocatalytic Dehydrogenation for High-Purity H2 and CO Production. Journal of the American Chemical Society 2024, 146 (14), 9657-9664.

(30) Wu, Y. D.; Jiang, Y. M.; Chen, W.; Yue, X.; Dong, C. L.; Qiu, M. Y.; Nga, T. T. T.; Yang, M.; Xia, Z. C.; Xie, C.; Xu, L. T.; Wang, R. Q.; Wang, S. Y.; Zou, Y. Q. Selective Electroreduction of 5-Hydroxymethylfurfural to Dimethylfuran in Neutral Electrolytes via Hydrogen Spillover and Adsorption Configuration Adjustment. Advanced Materials 2024, 36 (7), 2307799.

(31) Wu, J.; Zhai, Z. X.; Yin, S. B.; Wang, S. Y. General Formation of Interfacial Assembled Hierarchical Micro-Nano Arrays for Biomass Upgrading-Coupled Hydrogen Production. Advanced Functional Materials 2024, 34 (6), 2308198.

(32) Wen, G. B.; Ren, B. H.; Zhang, X. W.; Luo, D.; Liu, S. X.; Li, X.; Lu, H.; Xu, Y. M.; Akinoglu, E. M.; Tao, L.; Ma, Q. Y.; Wang, X.; Feng, R. F.; Wang, S. Y.; Chen, Z. W. Cu-In Dual Sites with Sulfur Defects toward Superior Ethanol Electrosynthesis from CO2 Electrolysis. Advanced Materials 2024, 36 (40), 2310822.

(33) Wei, X. X.; Chen, C.; Fu, X. Z.; Wang, S. Y. Oxygen Vacancies-Rich Metal Oxide for Electrocatalytic Nitrogen Cycle. Advanced Energy Materials 2024, 14 (1), 2303027.

(34) Wang, Y. J.; Zhu, X. R.; An, Q. Z.; Zhang, X. R.; Wei, X. X.; Chen, C.; Li, H.; Chen, D. W.; Zhou, Y. Y.; Liu, Q. H.; Shao, H. Y.; Wang, S. Y. Electron Deficiency is More Important than Conductivity in C-N Coupling for Electrocatalytic Urea Synthesis. Angewandte Chemie-International Edition 2024, 63 (49), e202410938.

(35) Wang, Y. J.; Xie, C.; Wang, G. J.; Zhang, F.; Xiao, Z. H.; Wang, J. J.; Wang, Y. Y.; Wang, S. Y. Electrochemistry-assisted in-situ regeneration of oxygen vacancies and Ti (III) active sites for persistent uranium recovery at a low potential. Water Research 2024, 258, 121817.

(36) Wang, S. Y. An electrocatalytic oxidative approach to synthesis urea. Chem Catalysis 2024, 4 (9), 101115.

(37) Tu, X. J.; Zhu, X. R.; Bo, S. W.; Zhang, X. R.; Miao, R. P.; Wen, G. B.; Chen, C.; Li, J.; Zhou, Y. Y.; Liu, Q. H.; Chen, D. W.; Shao, H. Y.; Yan, D. F.; Li, Y. F.; Jia, J. F.; Wang, S. Y. A Universal Approach for Sustainable Urea Synthesis via Intermediate Assembly at the Electrode/Electrolyte Interface. Angewandte Chemie-International Edition 2024, 63 (3), e202317087.

(38) Shen, J. J.; Zhang, M. T.; Huang, Y. K.; Chen, C.; Zheng, Y. H.; Dong, S. Y.; Jiang, J. M.; Lei, W.; Wang, S. Y.; Shao, H. Y. Ru-induced lattice expansion of metallic Co with favorable surface property for high-efficiency water electrolysis. Applied Catalysis B-Environment and Energy 2024, 358, 124392.

(39) Pan, Y. P.; Zou, Y. Q.; Ma, C. Y.; Nga, T. T. T.; An, Q. Z.; Miao, R.; Xia, Z. C.; Fan, Y.; Dong, C. L.; Liu, Q. H.; Wang, S. Y. Electrocatalytic Coupling of Nitrate and Formaldehyde for Hexamethylenetetramine Synthesis via C-N Bond Construction and Ring Formation. Journal of the American Chemical Society 2024, 146 (28), 19572-19579.

(40) Ni, W. P.; He, X. D.; Chen, H. J.; Dai, M. Y.; Zhang, W.; Zhang, Y.; Wang, S. Y.; Zhang, S. G. 93% single-atom utilization in base-resistant metal-organic framework quantum dots for ampere-level CO2 electroreduction. Energy & Environmental Science 2024, 17 (9), 3191-3201.

(41) Miao, R. P.; Chen, D. W.; Guo, Z. Y.; Zhou, Y. Y.; Chen, C.; Wang, S. Y. Recent advances in electrocatalytic upgrading of nitric oxide and beyond. Applied Catalysis B-Environment and Energy 2024, 344, 123662.

(42) Lyu, Y.; Zheng, J. Y.; Wang, S. Y. Photoelectrochemical Lithium Extraction from Waste Batteries. Chemsuschem 2024, 17 (17), e202317087.

(43) Lyu, Y.; Zheng, J. Y.; Huang, A. B.; Zhou, H. J.; Jiang, S. P.; Wang, S. Y. Reactivity and durability of TiO2 photoanodes with dominant high-energy (211) facets. Journal of Materials Chemistry A 2024, 12 (32), 21041-21049.

(44) Lu, Z. R.; Li, S. K.; Lu, Y. X.; Wang, S. Y.; Zou, Y. Q. Cleavage of C―C Bonds for Biomass Upgrading on Transition Metal Electrocatalysts. Acta Physico-Chimica Sinica 2024, 40 (4), 2306003.

(45) Lu, Y. X.; Li, Y. Y.; Zhou, B.; Wu, J. C.; Zhou, L.; Pan, Y. P.; Xia, Z. C.; Yang, M.; Wu, Y. D.; Yuan, Z. R.; Peng, R. X.; Kong, Z. J.; Wang, S. Y.; Zou, Y. Q. Anodic Electrosynthesis of Amide from Alcohol and Ammonia. Ccs Chemistry 2024, 6 (1), 125-136.

(46) Lu, Y. X.; Chen, M. Y.; Wang, Y. Q.; Yang, C. M.; Zou, Y. Q.; Wang, S. Y. Aqueous electrocatalytic small-molecule valorization trilogy. Chem 2024, 10 (5), 1371-1390.

(47) Liu, Z. J.; Cui, S. S.; Liu, L. Y.; Wang, F.; Wang, G. J.; Kong, Z. J.; Liu, X. F.; Zhang, X.; Feng, H. S.; Huang, R. W.; Wang, S. Y.; Zang, S. Q. Regulating the microenvironment of catalytic sites by atomically precise and charge tunable Au25 nanoclusters for efficient 5-hydroxymethylfurfural electro-oxidation. Science China-Chemistry 2024, 67.

(48) Liu, Y.; Yang, Z. H.; Zou, Y. Q.; Wang, S. Y.; He, J. Y. Interfacial Micro-Environment of Electrocatalysis and Its Applications for Organic Electro-Oxidation Reaction. Small 2024, 20 (4), 2306488.

(49) Liu, Y.; Yang, Z. H.; Zou, Y. Q.; Wang, S. Y.; He, J. Y. Trace Cobalt Doping and Defect Engineering of High Surface Area α-Ni(OH)2 for Electrocatalytic Urea Oxidation. Energy & Environmental Materials 2024, 7 (2), e12576.

(50) Liu, Q.; Du, S. Q.; Liu, T. Y.; Gong, L. Y.; Wu, Y. J.; Lin, J. Q.; Yang, P. P.; Huang, G.; Li, M. Y.; Wu, Y. D.; Zhou, Y. Y.; Li, Y. F.; Tao, L.; Wang, S. Y. Efficient Low-temperature Hydrogen Production by Electrochemical-assisted Methanol Steam Reforming. Angewandte Chemie-International Edition 2024, 63 (7), e202315157.

(51) Li, S. K.; Zou, Y. Q.; Chen, C.; Wang, S. Y.; Liu, Z. Q. Defect engineered electrocatalysts for C-N coupling reactions toward urea synthesis. Chinese Chemical Letters 2024, 35 (8), 109147.

(52) Li, M. Y.; Yang, P. P.; Lv, W. J.; Liu, Q.; Wu, Y. J.; Du, S. Q.; Huang, G.; Jiang, Z. Y.; Wang, J. J.; Xu, Y. B.; Zhou, Y. Y.; Lu, S. F.; Tao, L.; Wang, S. Y. Ultrastable Ruthenium-Based Electrocatalysts for Hydrogen Oxidation Reaction in High-Temperature Polymer Electrolyte Membrane Fuel Cells. Ccs Chemistry 2024, 202404436.

(53) Li, H.; Xu, L. T.; Bo, S. W.; Wang, Y. J.; Xu, H.; Chen, C.; Miao, R. P.; Chen, D. W.; Zhang, K. F.; Liu, Q. H.; Shen, J. J.; Shao, H. Y.; Jia, J. F.; Wang, S. Y. Ligand engineering towards electrocatalytic urea synthesis on a molecular catalyst. Nature Communications 2024, 15 (1), 8858.

(54) Kong, Z. J.; Wu, Z. P.; Maswadeh, Y.; Yu, G.; Vargas, J. A.; Caracciolo, D.; Petkov, V.; Zang, S. Q.; Tao, L.; Wang, S. Y.; Zhong, C. J. Self-Sustainable Lattice Strains of Morphology-Tuned Nanowires in Electrocatalysis. ACS Catalysis 2024, 14 (7), 4709-4718.

(55) Jin, P. Y.; Zhang, L.; Wu, Z.; Zhou, B.; Duan, Z. J.; Li, H. Y.; Liu, H. W.; Deng, A. M.; Li, Q. Y.; Zhang, Y. Q.; Zhao, C. X.; Wang, S. Y. Heterogeneous interface induced Co3O4-NiO catalyst for efficient electrocatalytic 5-Hydroxymethylfurfural oxidation. Chemical Engineering Journal 2024, 481, 148303.

(56) Huang, Y. C.; Wu, Y. J.; Lu, Y. R.; Chen, J. L.; Lin, H. J.; Chen, C. T.; Chen, C. L.; Jing, C.; Zhou, J.; Zhang, L. J.; Wang, Y. Y.; Chou, W. C.; Wang, S. Y.; Hu, Z. W.; Dong, C. L. Direct Identification of O-O Bond Formation Through Three-Step Oxidation During Water Splitting by Operando Soft X-ray Absorption Spectroscopy. Advanced Science 2024, 11 (40), 2401236.

(57) He, Y. Q.; Zeng, X.; Lu, Z. R.; Mo, S. H.; An, Q. Z.; Liu, Q. H.; Yang, Y. L.; Lan, W.; Wang, S. Y.; Zou, Y. Q. Aqueous Electrocatalytic Hydrogenation Depolymerization of Lignin β-O-4 Linkage via Selective Caryl-O(C) Bond Cleavage: The Regulation of Adsorption. Journal of the American Chemical Society 2024, 146 (46), 32022-32031.

(58) Han, M. W.; Luo, Y. X.; Xu, L. T.; Chen, W.; Li, C. M.; Huang, Y. C.; Wu, Y. D.; Jiang, Y. M.; Wu, W. J.; Wang, R. Q.; Lu, Y. R.; Zou, Y. Q.; Wang, S. Y. Oxygen Vacancy Boosts Nitrogen-Centered Radical Coupling Initiated by Primary Amine Electrooxidation. Journal of the American Chemical Society 2024, 146 (49), 33893-33902.

(59) Guo, S. S.; Ma, M. Y.; Wang, Y. Q.; Wang, J. B.; Jiang, Y. B.; Duan, R. H.; Lei, Z. D.; Wang, S. Y.; He, Y. M.; Liu, Z. Spatially Confined Microcells: A Path toward TMD Catalyst Design. Chemical Reviews 2024, 124 (11), 6952-7006.

(60) Guan, Q. H.; Wang, J.; Zhuang, Q.; Zhang, J.; Li, L. G.; Jia, L. J.; Zhang, Y. Z.; Hu, H. F.; Hu, H. M.; Cheng, S.; Zhang, H.; Li, H. H.; Liu, M. N.; Wang, S. Y.; Lin, H. Z. Self-tandem catalysis of fast Mg2+ desolvation and sulfur conversions for ultrahigh-performance Mg-S batteries via serially-assembled atomic reactors. Energy & Environmental Science 2024, 17 (11), 3765-3775.

(61) Gong, L. Y.; Zhu, X. R.; Nga, T. T. T.; Liu, Q.; Wu, Y. J.; Yang, P. P.; Zhou, Y. Y.; Xiao, Z. H.; Dong, C. L.; Fu, X. Z.; Tao, L.; Wang, S. Y. Ultra-Low-Potential Methanol Oxidation on Single-Ir-Atom Catalyst. Angewandte Chemie-International Edition 2024, 63 (28).

(62) Fan, Y.; Liu, T. Y.; Yan, Y. H.; Xia, Z. C.; Lu, Y. X.; Pan, Y. P.; Wang, R. Q.; Xie, D. K.; Zhu, Z. H.; Nga, T. T. T.; Dong, C. L.; Jing, Y.; Li, Y. F.; Wang, S. Y.; Zou, Y. Q. Electrochemical synthesis of formamide by C-N coupling with amine and CO2 2 with a high faradaic efficiency of 37.5%. Chem 2024, 10 (8), 2437-2449.

(63) Du, S. Q.; Zhou, Y. Y.; Tao, L.; Wang, S. Y.; Liu, Z. Q. Hydrogen Electrode Reactions in Energy-Related Electrocatalysis Systems. Chemsuschem 2024, 17 (23), e202400714.

(64) Du, S. Q.; Yang, P. P.; Li, M. Y.; Tao, L.; Wang, S. Y.; Liu, Z. Q. Catalysts and electrolyzers for the electrochemical CO2 reduction reaction: from laboratory to industrial applications. Chemical Communications 2024, 60 (10), 1207-1221.

(65) Ding, J. J.; Lyu, Y. H.; Zhou, H. J.; Johannessen, B.; Zhang, X. R.; Zheng, J. Y.; Jiang, S. P.; Wang, S. Y. Efficiently unbiased solar-to-ammonia conversion by photoelectrochemical Cu/C/Si-TiO2 tandems. Applied Catalysis B-Environment and Energy 2024, 345, 123735.

(66) Dai, M. Y.; Ni, W. P.; Zeng, Z. L. Z.; Zhang, W.; Zhang, Y.; Wang, S. Y.; Zhang, S. G. Inert is not inactive: origin of carbon dioxide electroreduction activity over a carbon current collector-based electrode. Energy & Environmental Science 2024, 17 (4), 1531-1539.

(67) Cheng, Y.; Wang, H. P.; Jiang, T. W.; Guo, X. Y.; Kwofie, F.; Su, H. E.; Khotseng, L.; Zeng, W. F.; Zhang, Y.; Liu, Y. J.; Cai, W. B.; Wang, S. Y. Lutetium-Induced Ultrafine PtRu Nanoclusters with a High Electrochemical Surface Area for Direct Methanol Fuel Cells at Alleviated Temperatures. ACS Applied Materials & Interfaces 2024, 16 (16), 20352-20359.

(68) Cheng, B. X.; Zhan, H. Y.; Lu, Y. K.; Xing, D. N.; Lv, X. S.; Frauenheim, T.; Zhou, P.; Wang, S. Y.; Zou, Y. Q. Oxygen Defect Site Filling Strategy Induced Moderate Enrichment of Reactants for Efficient Electrocatalytic Biomass Upgrading. Advanced Science 2024, 11 (48), 2410725.

(69) Chen, W.; Zhang, L.; Xu, L. T.; He, Y. Q.; Pang, H.; Wang, S. Y.; Zou, Y. Q. Pulse potential mediated selectivity for the electrocatalytic oxidation of glycerol to glyceric acid. Nature Communications 2024, 15 (1), 2420.

(70) Chen, W.; Wu, Y. D.; Jiang, Y. M.; Yang, G. X.; Li, Y. Y.; Xu, L. T.; Yang, M.; Wu, B. B.; Pan, Y. P.; Xu, Y. Z.; Liu, Q. H.; Chen, C.; Peng, F.; Wang, S. Y.; Zou, Y. Q. Catalyst Selection over an Electrochemical Reductive Coupling Reaction toward Direct Electrosynthesis of Oxime from NO x and Aldehyde. Journal of the American Chemical Society 2024, 146 (9), 6294-6306.

(71) Chen, W.; Shi, J. Q.; Wu, Y. D.; Jiang, Y. M.; Huang, Y. C.; Zhou, W.; Liu, J. L.; Dong, C. L.; Zou, Y. Q.; Wang, S. Y. Vacancy-induced catalytic mechanism for alcohol electrooxidation on nickel-based electrocatalyst. Angewandte Chemie-International Edition 2024, 63 (4), e202316449.

(72) Chen, D. W.; Liu, J. N.; Shen, J. J.; Zhang, Y. Q.; Shao, H. Y.; Chen, C.; Wang, S. Y. Electrocatalytic C-N Couplings at Cathode and Anode. Advanced Energy Materials 2024, 14 (28), 2303820.

(73) Zhu, Y. W.; Deng, W. F.; Tan, Y. M.; Shi, J. Q.; Wu, J. C.; Lu, W. B.; Jia, J. F.; Wang, S. Y.; Zou, Y. Q. In Situ Topochemical Transformation of ZnIn2S4 for Efficient Photocatalytic Oxidation of 5-Hydroxymethylfurfural to 2,5-Diformylfuran. Advanced Functional Materials 2023, 33 (45), 2304985.

(74) Zhou, B.; Shi, J. Q.; Jiang, Y. M.; Xiao, L.; Lu, Y. X.; Dong, F.; Chen, C.; Wang, T. H.; Wang, S. Y.; Zou, Y. Q. Enhanced dehydrogenation kinetics for ascorbic acid electrooxidation with ultra-low cell voltage and large current density. Chinese Journal of Catalysis 2023, 50, 372-380.

(75) Zheng, J. Y.; Lyu, Y.; Huang, A. B.; Johannessen, B.; Cao, X.; Jiang, S. P.; Wang, S. Y. Deciphering the synergy between electron localization and alloying for photoelectrochemical nitrogen reduction to ammonia. Chinese Journal of Catalysis 2023, 45, 141-151.

(76) Zheng, J. G.; Zhang, H.; Lv, J. B.; Zhang, M.; Wan, J. Y.; Gerrits, N.; Wu, A. J.; Lan, B. R.; Wang, W. T.; Wang, S. Y.; Tu, X.; Bogaerts, A.; Li, X. D. Enhanced NH3 Synthesis from Air in a Plasma Tandem- Electrocatalysis System Using Plasma-Engraved N-Doped Defective MoS2. JACS Au 2023, 3 (5), 1328-1336.

(77) Zhang, Y. Q.; Liu, H. W.; Zhao, S. Y.; Xie, C.; Huang, Z. G.; Wang, S. Y. Insights into the Dynamic Evolution of Defects in Electrocatalysts. Advanced Materials 2023, 35 (9), 2209680.

(78) Zhang, X. R.; Zhu, X. R.; Bo, S. W.; Chen, C.; Cheng, K.; Zheng, J. Y.; Li, S.; Tu, X. J.; Chen, W.; Xie, C.; Wei, X. X.; Wang, D. D.; Liu, Y. Y.; Chen, P. S.; Jiang, S. P.; Li, Y. F.; Liu, Q. H.; Li, C. G.; Wang, S. Y. Electrocatalytic Urea Synthesis with 63.5 % Faradaic Efficiency and 100 % N-Selectivity via One-step C-N coupling. Angewandte Chemie-International Edition 2023, 62 (33), e202305447.

(79) Zhang, X. R.; Zheng, J. Y.; Lyu, Y. H.; Wang, S. Y. Recent Advances in Green C-N Coupling for Urea Synthesis. Chemical Journal of Chinese Universities-Chinese 2023, 44 (5), 20220717.

(80) Zhang, X. R.; Lyu, Y.; Zhou, H. J.; Zheng, J. Y.; Huang, A. B.; Ding, J. J.; Xie, C.; De Marco, R.; Tsud, N.; Kalinovych, V.; Jiang, S. P.; Dai, L. M.; Wang, S. Y. Photoelectrochemical N2-to-NH3 Fixation with High Efficiency and Rates via Optimized Si-Based System at Positive Potential versus Li0/+. Advanced Materials 2023, 35 (21), 2211894.

(81) Zhang, D. C.; Kong, Z. J.; Huang, G.; Du, S. Q.; Lin, J. Q.; Wang, Y. Y.; Yu, G.; Tao, L.; Wang, S. Y. Defective g-C3N4 optimizes phosphate distribution in the catalytic layer and boosts the performance of high-temperature proton exchange membrane fuel cells. Science China-Materials 2023, 66 (9), 3468-3474.

(82) Yang, M.; Li, Y. Y.; Dong, C. L.; Li, S. K.; Xu, L. T.; Chen, W.; Wu, J. C.; Lu, Y. X.; Pan, Y. P.; Wu, Y. D.; Luo, Y. X.; Huang, Y. C.; Wang, S. Y.; Zou, Y. Q. Correlating the Valence State with the Adsorption Behavior of a Cu-Based Electrocatalyst for Furfural Oxidation with Anodic Hydrogen Production Reaction. Advanced Materials 2023, 35 (39), 2304203.

(83) Yan, D. F.; Mebrahtu, C.; Wang, S. Y.; Palkovits, R. Innovative Electrochemical Strategies for Hydrogen Production: From Electricity Input to Electricity Output. Angewandte Chemie-International Edition 2023, 62 (16), e202214333.

(84) Xu, L. T.; Wang, C. R.; Yao, Y. L.; Chen, W.; Zhu, Z. H.; Wu, J. C.; Yang, M.; Wu, Y. D.; Wang, S. Y.; Zou, Y. Q. Electro-oxidation cross-coupling of primary and secondary alcohols by constructing intermediate-enriched micro-environment. Science China-Chemistry 2023, 66 (8), 2408-2415.

(85) Xu, J. N.; Meng, J.; Hu, Y.; Liu, Y. Z.; Lou, Y. H.; Bai, W. J.; Dou, S.; Yu, H. P.; Wang, S. Y. Electrocatalytic Lignin Valorization into Aromatic Products via Oxidative Cleavage of Cα-Cβ Bonds. Research 2023, 6, 0288.

(86) Xiao, J. M.; Zhang, S. S.; Sun, Y. Y.; Liu, X. T.; He, G. L.; Liu, H.; Khan, J.; Zhu, Y. L.; Su, Y. Q.; Wang, S. Y.; Han, L. Urchin-Like Structured MoO2/Mo3P/Mo2C Triple-Interface Heterojunction Encapsulated within Nitrogen-Doped Carbon for Enhanced Hydrogen Evolution Reaction. Small 2023, 19 (12), 2206472.

(87) Wu, Z.; Zhang, Y. Q.; Zhang, L.; Zhou, B.; Wei, Z. X.; Wang, D. D.; Lu, W. B.; Jia, J. F.; Tao, L.; Wang, T. H.; Wang, S. Y. Coupling Fe(II)/Fe(III) Redox Mediated SO2 Conversion with Hydrogen Production. Advanced Functional Materials 2023, 33 (10), 2212479.

(88) Wu, Y. J.; Zhu, X. R.; Du, S. Q.; Huang, G.; Zhou, B.; Lu, Y. X.; Li, Y. F.; Jiang, S. P.; Tao, L.; Wang, S. Y. Promoted hydrogen and acetaldehyde production from alcohol dehydrogenation enabled by electrochemical hydrogen pumps. Proceedings of the National Academy of Sciences of the United States of America 2023, 120 (27), e2300625120.

(89) Wu, Y. D.; Chen, W.; Jiang, Y. M.; Xu, Y. Z.; Zhou, B.; Xu, L. T.; Xie, C.; Yang, M.; Qiu, M. Y.; Wang, D. D.; Liu, Q.; Liu, Q. H.; Wang, S. Y.; Zou, Y. Q. Electrocatalytic Synthesis of Nylon-6 Precursor at Almost 100 % Yield. Angewandte Chemie-International Edition 2023, 62 (30), e202305491.

(90) Wu, J. C.; Xu, L. T.; Kong, Z. J.; Gu, K. Z.; Lu, Y. X.; Wu, X. W.; Zou, Y. Q.; Wang, S. Y. Integrated Tandem Electrochemical-chemical-electrochemical Coupling of Biomass and Nitrate to Sustainable Alanine. Angewandte Chemie-International Edition 2023, 62 (45), e202311196.

(91) Wu, B. B.; Lyu, Y.; Chen, W.; Zheng, J. Y.; Zhou, H. J.; De Marco, R.; Tsud, N.; Prince, K. C.; Kalinovych, V.; Johannessen, B.; Jiang, S. P.; Wang, S. Y. Compression Stress-Induced Internal Magnetic Field in Bulky TiO2 Photoanodes for Enhancing Charge-Carrier Dynamics. JACS Au 2023, 3 (2), 592–602.

(92) Wei, X. X.; Liu, Y. Y.; Zhu, X. R.; Bo, S. W.; Xiao, L.; Chen, C.; Nga, T. T. T.; He, Y. Q.; Qiu, M. Y.; Xie, C.; Wang, D. D.; Liu, Q. H.; Dong, F.; Dong, C. L.; Fu, X. Z.; Wang, S. Y. Dynamic Reconstitution Between Copper Single Atoms and Clusters for Electrocatalytic Urea Synthesis. Advanced Materials 2023, 35 (18), 2300020.

(93) Wei, J. R.; Chen, S. P.; Jiang, Y. M.; Liu, Z. J.; Wang, Y. J.; You, J.; Zhang, F.; Cao, Y.; Wang, S. Y.; Wang, Y. Y. Selective Anchoring by Surface Sulfur Species Coupled with Rapid Interface Electron Transfer for Ultrahigh Capacity Extraction of Uranium from Seawater. Environmental Science & Technology 2023, 57 (51), 21908-21916.

(94) Wang, Y. Y.; Wang, Y. J.; Song, M. L.; Chen, S. P.; Wei, J. R.; You, J.; Zhou, B.; Wang, S. Y. Electrochemical-Mediated Regenerable FeII Active Sites for Efficient Uranium Extraction at Ultra-Low Cell Voltage. Angewandte Chemie-International Edition 2023, 62 (21), e202217601.

(95) Wang, Y. J.; Song, M. L.; Wei, J. R.; You, J.; Chen, S. P.; Wang, S. Y.; Wang, Y. Y. Strengthening Fe(II)/Fe(III) Dynamic Cycling by Surface Sulfation to Achieve Efficient Electrochemical Uranium Extraction at Ultralow Cell Voltage. Environmental Science & Technology 2023, 57 (35), 13258-13266.

(96) Wang, Y. J.; Chen, D. W.; Chen, C.; Wang, S. Y. Electrocatalytic Urea Synthesis via C-N Coupling from CO2 and Nitrogenous Species. Accounts of Chemical Research 2023, 57 (2), 247-256.

(97) Wang, J. B.; Qiu, M. Y.; Jiang, Y. B.; Xia, H.; An, X. Y.; Wang, S. Y.; He, Y. M. Emerging on-chip microcells in electrocatalysis: functions of window and circuit. Ees Catalysis 2023, 1 (6), 874-891.

(98) Wang, H. F.; Xu, L. T.; Wu, J. C.; Zhou, P.; Tao, S. S.; Lu, Y. X.; Wu, X. W.; Wang, S. Y.; Zou, Y. Q. Boosting 5-hydroxymethylfurfural electrooxidation in neutral electrolytes via TEMPO-enhanced dehydrogenation and OH adsorption. Chinese Journal of Catalysis 2023, 46, 148-156.

(99) Wang, D. D.; Zhu, X. R.; Tu, X. J.; Zhang, X. R.; Chen, C.; Wei, X. X.; Li, Y. F.; Wang, S. Y. Oxygen-Bridged Copper-Iron Atomic Pair as Dual-Metal Active Sites for Boosting Electrocatalytic NO Reduction. Advanced Materials 2023, 35 (39), 2304646.

(100) Wang, D. D.; Chen, Z. W.; Wu, Y. J.; Huang, Y. C.; Tao, L.; Chen, J.; Dong, C. L.; Singh, C. V.; Wang, S. Y. Structurally ordered high-entropy intermetallic nanoparticles with enhanced C-C bond cleavage for ethanol oxidation. Smartmat 2023, 4 (1), e1117.

(101) Wang, D. D.; Chen, Z. W.; Gu, K. Z.; Chen, C.; Liu, Y. Y.; Wei, X. X.; Singh, C. V.; Wang, S. Y. Hexagonal Cobalt Nanosheets for High-Performance Electrocatalytic NO Reduction to NH3. Journal of the American Chemical Society 2023, 145 (12), 6899-6904.

(102) Wang, D. D.; Chen, C.; Wang, S. Y. Defect engineering for advanced electrocatalytic conversion of nitrogen-containing molecules. Science China-Chemistry 2023, 66 (4), 1052-1072.

(103) Shen, J. J.; Li, J.; Li, B.; Zheng, Y.; Bao, X. Z.; Guo, J. P.; Guo, Y.; Lai, C. L.; Lei, W.; Wang, S. Y.; Shao, H. Y. Ambient Fast Synthesis of Superaerophobic/Superhydrophilic Electrode for Superior Electrocatalytic Water Oxidation. Energy & Environmental Materials 2023, 6 (6), e12462.

(104) Qiu, M. Y.; Zhu, X. R.; Bo, S. W.; Cheng, K.; He, N. H.; Gu, K. Z.; Song, D. Z.; Chen, C.; Wei, X. X.; Wang, D. D.; Liu, Y. Y.; Li, S.; Tu, X. J.; Li, Y. F.; Liu, Q. H.; Li, C. G.; Wang, S. Y. Boosting Electrocatalytic Urea Production via Promoting Asymmetric C-N Coupling. Ccs Chemistry 2023, 5 (11), 2617-2627.

(105) Peng, R. X.; Jiang, Y. M.; Dong, C. L.; Nga, T. T. T.; Lu, Y. X.; Li, S. K.; Fan, Y.; Xie, C.; Wang, S. Y.; Zou, Y. Q. Cationic vacancies accelerate the generation of CoOOH in perovskite hydroxides for the electrooxidation of biomass. Journal of Materials Chemistry A 2023, 11 (28), 15196-15203.

(106) Pan, Y. P.; Li, Y. Y.; Dong, C. L.; Huang, Y. C.; Wu, J. C.; Shi, J. Q.; Lu, Y. X.; Yang, M.; Wang, S. Y.; Zou, Y. Q. Unveiling the synergistic effect of multi-valence Cu species to promote formaldehyde oxidation for anodic hydrogen production. Chem 2023, 9 (4), 963-977.

(107) Ni, W. P.; Guan, Y. J.; Chen, H. J.; Zhang, Y.; Wang, S. Y.; Zhang, S. G. Molecular Engineering of Cation Solvation Structure for Highly Selective Carbon Dioxide Electroreduction. Angewandte Chemie-International Edition 2023, 62 (37), e202303233.

(108) Lu, Y. X.; Zhou, L.; Wang, S. Y.; Zou, Y. Q. Defect engineering of electrocatalysts for organic synthesis. Nano Research 2023, 16 (2), 1890-1912.

(109) Lu, Y. X.; Yang, L.; Jiang, Y. M.; Yuan, Z. R.; Wang, S. Y.; Zou, Y. Q. Engineering a localized electrostatic environment to enhance hydroxyl activating for electrocatalytic biomass conversion. Chinese Journal of Catalysis 2023, 53, 153-160.

(110) Liu, Z. J.; Wang, G. J.; Guo, J. Y.; Wang, S. Y.; Zang, S. Q. Sub-2 nm IrO2/Ir nanoclusters with compressive strain and metal vacancies boost water oxidation in acid. Nano Research 2023, 16 (1), 334-342.

(111) Liu, Z. J.; Kong, Z. J.; Cui, S. S.; Liu, L. Y.; Wang, F.; Wang, Y. Y.; Wang, S. Y.; Zang, S. Q. Electrocatalytic Mechanism of Defect in Spinels for Water and Organics Oxidation. Small 2023, 19 (39), 2302216.

(112) Liu, Y. Y.; Tu, X. J.; Wei, X. X.; Wang, D. D.; Zhang, X. R.; Chen, W.; Chen, C.; Wang, S. Y. C-Bound or O-Bound Surface: Which One Boosts Electrocatalytic Urea Synthesis? Angewandte Chemie-International Edition 2023, 62 (19), e202300387.

(113) Liu, H.; Jiang, L. Z.; Sun, Y. Y.; Khan, J.; Feng, B.; Xiao, J. M.; Zhang, H. D.; Xie, H. J.; Li, L. N.; Wang, S. Y.; Han, L. Asymmetric N, P-Coordinated Single-Atomic Fe Sites with Fe2P Nanoclusters/Nanoparticles on Porous Carbon Nanosheets for Highly Efficient Oxygen Electroreduction. Advanced Energy Materials 2023, 13 (32), 2301223.

(114) Liu, H.; Jiang, L. Z.; Sun, Y. Y.; Khan, J.; Feng, B.; Xiao, J. M.; Zhang, H. D.; Xie, H. J.; Li, L. A.; Wang, S. Y.; Han, L. Revisiting the Role of Sulfur Functionality in Regulating the Electron Distribution of Single-Atomic Fe Sites Toward Enhanced Oxygen Reduction. Advanced Functional Materials 2023, 33 (35), 2304074.

(115) Liu, H.; Jiang, L. Z.; Khan, J.; Wang, X. X.; Xiao, J. M.; Zhang, H. D.; Xie, H. J.; Li, L. A.; Wang, S. Y.; Han, L. Decorating Single-Atomic Mn Sites with FeMn Clusters to Boost Oxygen Reduction Reaction. Angewandte Chemie-International Edition 2023, 62 (3), e202214988.

(116) Li, Y. Y.; Huang, G.; Jiang, Y. M.; Ma, C. Y.; Lu, Y. X.; Wang, S. Y.; Zou, Y. Q. Theoretical Insights into Facet-Dependent Activity and Selectivity of Cu Catalysts in Electrochemical Furfural Reduction. Journal of Physical Chemistry C 2023, 127 (45), 21989-21998.

(117) Li, Y.; He, Z. J.; Wu, F. X.; Wang, S. Y.; Cheng, Y.; Jiang, S. P. Defect engineering of high-loading single-atom catalysts for electrochemical carbon dioxide reduction. Materials Reports: Energy 2023, 3 (2), 100197.

(118) Li, M. Y.; Song, M. L.; Ni, W. T.; Xiao, Z. H.; Li, Y. Y.; Jia, J. F.; Wang, S. Y.; Wang, Y. Y. Activating surface atoms of high entropy oxides for enhancing oxygen evolution reaction. Chinese Chemical Letters 2023, 34 (3), 107571.

(119) Jiang, L.; Lyu, Y.; Huang, A. B.; Zheng, J. Y.; Xie, C.; Cao, X.; Wang, S. Y. Mixed-phase WO3 Cocatalysts on Hierarchical Si-based Photocathode for Efficient Photoelectrochemical Li Extraction. Angewandte Chemie-International Edition 2023, 62 (24), e202304079.

(120) Huang, G.; Li, Y. Y.; Tao, L.; Huang, Z. F.; Kong, Z. J.; Xie, C.; Du, S. Q.; Wang, T. H.; Wu, Y. J.; Liu, Q.; Zhang, D. C.; Lin, J. Q.; Li, M. Y.; Wang, J.; Zhang, J.; Lu, S. F.; Cheng, Y.; Wang, S. Y. Durable High-Temperature Proton Exchange Membrane Fuel Cells Enabled by the Working-Temperature-Matching Palladium-Hydrogen Buffer Layer. Angewandte Chemie-International Edition 2023, 62 (1), e202215177.

(121) Guo, J. Y.; Wang, G. J.; Cui, S. S.; Xia, B. Y.; Liu, Z. J.; Zang, S. Q.; Wang, S. Y. Enhanced adsorption with hydroxymethyl and aldehyde over the heterophase interface for efficient biomass electrooxidation. Science China-Materials 2023, 66 (7), 2698-2707.

(122) Gao, H. M.; Zhang, Z. J.; Jiang, Y. M.; Chen, R.; Dong, C. L.; Huang, Y. C.; Ma, M. Y.; Shi, Z. D.; Liu, J. Q.; Qiu, M. Y.; Wu, T. Y.; Wang, J. B.; Jiang, Y. B.; Chen, J.; An, X. Y.; He, Y. M.; Wang, S. Y. Alloyed Pt Single-Atom Catalysts for Durable PEM Water Electrolyzer. Advanced Functional Materials 2023, 33 (46), 2214795.

(123) Gao, H. M.; Xiao, Z. H.; Du, S. Q.; Liu, T. Y.; Huang, Y. C.; Shi, J. Q.; Zhu, Y. W.; Huang, G.; Zhou, B.; He, Y. M.; Dong, C. L.; Li, Y. F.; Chen, R.; Wang, S. Y. Reducing the Ir-O Coordination Number in Anodic Catalysts based on IrOx Nanoparticles towards Enhanced Proton-exchange-membrane Water Electrolysis. Angewandte Chemie-International Edition 2023, 62 (49), e202313954.

(124) Gao, H. M.; Liu, J. Q.; Zhang, Z. J.; Lu, Y. X.; Chen, R.; Huang, Y. C.; Xie, C.; Qiu, M. Y.; Wu, T. Y.; Wang, J. B.; Jiang, Y. B.; Dong, C. L.; Kong, Z. J.; Wang, S. Y. Electrochemical etching induced high-valence cobalt with defects site for boosting electrochemical water splitting. Chemical Engineering Journal 2023, 463, 142224.

(125) Fan, Y.; Zou, Y. Q.; Wang, S. Y. Electrocatalytic oxidation of biomass derived molecules. Science Bulletin 2023, 68 (22), 2695-2699.

(126) Chen, W.; Shi, J. Q.; Xie, C.; Zhou, W.; Xu, L. T.; Li, Y. Y.; Wu, Y. D.; Wu, B. B.; Huang, Y. C.; Zhou, B.; Yang, M.; Liu, J. L.; Dong, C. L.; Wang, T. H.; Zou, Y. Q.; Wang, S. Y. Unraveling the electrophilic oxygen-mediated mechanism for alcohol electrooxidation on NiO. National Science Review 2023, 10 (5), nwad099.

(127) Chen, C.; Li, S.; Zhu, X. R.; Bo, S. W.; Cheng, K.; He, N. H.; Qiu, M. Y.; Xie, C.; Song, D. Z.; Liu, Y. Z.; Chen, W.; Li, Y. F.; Liu, Q. H.; Li, C. G.; Wang, S. Y. Balancing sub-reaction activity to boost electrocatalytic urea synthesis using a metal-free electrocatalyst. Carbon Energy 2023, 5 (10), e345.

(128) Zhu, Y. W.; Wang, X. X.; Shi, J. Q.; Gan, L.; Huang, B. B.; Tao, L.; Wang, S. Y. Neuron-inspired design of hierarchically porous carbon networks embedded with single-iron sites for efficient oxygen reduction. Science China-Chemistry 2022, 65 (7), 1445-1452.

(129) Zhu, Y. W.; Shi, J. Q.; Li, Y. Y.; Lu, Y. X.; Zhou, B.; Wang, S. Y.; Zou, Y. Q. Understanding the surface segregation behavior of bimetallic CoCu toward HMF oxidation reaction. Journal of Energy Chemistry 2022, 74, 85-90.

(130) Zhu, Y. W.; Gan, L.; Shi, J. Q.; Huang, G.; Gao, H. M.; Tao, L.; Wang, S. Y. Co-CoF2 heterojunctions encapsulated in N, F co-doped porous carbon as bifunctional oxygen electrocatalysts for Zn-air batteries. Chemical Engineering Journal 2022, 433, 133541.

(131) Zhou, P.; Lv, X. S.; Tao, S. S.; Wu, J. C.; Wang, H. F.; Wei, X. X.; Wang, T. H.; Zhou, B.; Lu, Y. X.; Frauenheim, T.; Fu, X. Z.; Wang, S. Y.; Zou, Y. Q. Heterogeneous-Interface-Enhanced Adsorption of Organic and Hydroxyl for Biomass Electrooxidation. Advanced Materials 2022, 34 (42), 2204089.

(132) Zhou, L.; Li, Y. Y.; Lu, Y. X.; Wang, S. Y.; Zou, Y. Q. pH-Induced selective electrocatalytic hydrogenation of furfural on Cu electrodes. Chinese Journal of Catalysis 2022, 43 (12), 3142-3153.

(133) Zhou, B.; Li, M. Y.; Li, Y. Y.; Liu, Y. B.; Lu, Y. X.; Li, W.; Wu, Y. J.; Huo, J.; Wang, Y. Y.; Tao, L.; Wang, S. Y. Cobalt-regulation-induced dual active sites in Ni2P for hydrazine electrooxidation. Chinese Journal of Catalysis 2022, 43 (4), 1131-1138.

(134) Zheng, J. Y.; Jiang, L.; Lyu, Y. H.; Jian, S. P.; Wang, S. Y. Green Synthesis of Nitrogen-to-Ammonia Fixation: Past, Present, and Future. Energy & Environmental Materials 2022, 5 (2), 452-457.

(135) Zhang, Y. Q.; Wang, D. D.; Wang, S. Y. High-Entropy Alloys for Electrocatalysis: Design, Characterization, and Applications. Small 2022, 18 (7), 2104339.

(136) Zhang, X. R.; Zhu, X. R.; Bo, S. W.; Chen, C.; Qiu, M. Y.; Wei, X. X.; He, N. H.; Xie, C.; Chen, W.; Zheng, J. Y.; Chen, P. S.; Jiang, S. P.; Li, Y. F.; Liu, Q. H.; Wang, S. Y. Identifying and tailoring C-N coupling site for efficient urea synthesis over diatomic Fe-Ni catalyst. Nature Communications 2022, 13 (1), 5337.

(137) Zhang, T. R.; Wang, S. Y.; Ma, D. The Nano Research Young Innovators (NR45) Awards in nanocatalysis. Nano Research 2022, 15 (12), 9961-9966.

(138) Zeng, Z. X. S.; Ge, C. H.; Braun, K.; Eberle, M.; Wang, Y. F.; Zheng, B. Y.; Zhu, C. G.; Sun, X. X.; Huang, L. Y.; Luo, Z. Y.; Chen, Y.; Duan, H. G.; Wang, S. Y.; Li, D.; Gao, F.; Pan, A. L.; Wang, X. Manipulating Picosecond Photoresponse in van der Waals Heterostructure Photodetectors. Advanced Functional Materials 2022, 32 (30), 2200973.

(139) Yue, X.; Zhao, W. X.; Wang, S. Y.; Zou, Y. Q. Selective Electrocatalytic Hydrogenation of 5-Hydroxymethyl-furfural to 2,5-Dihydroxymethylfuran on Bimetallic PdCu Alloy. Chinese Journal of Structural Chemistry 2022, 41 (5), 2205063-2205069.

(140) Yang, X.; Wu, R.; Zheng, B. Y.; Luo, Z. Y.; You, W. X.; Liu, H. W.; Li, L. H.; Zhang, Y. S.; Tan, Q.; Liang, D. L.; Chen, Y.; Qu, J. Y.; Yi, X.; Wang, X. J.; Zhou, J.; Duan, H. G.; Wang, S. Y.; Chen, S. L.; Pan, A. L. A Waveguide-Integrated Two-Dimensional Light-Emitting Diode Based on p-Type WSe2/n-Type CdS Nanoribbon Heterojunction. Acs Nano 2022, 16 (3), 4371-4378.

(141) Yang, M.; Yuan, Z. R.; Peng, R. X.; Wang, S. Y.; Zou, Y. Q. Recent Progress on Electrocatalytic Valorization of Biomass-Derived Organics. Energy & Environmental Materials 2022, 5 (4), 1117-1138.

(142) Yang, M.; Wang, S. Y.; Zou, Y. Q. A bipolar hydrogen production electrolysis system. Science Bulletin 2022, 67 (17), 1713-1715.

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(155) Wang, T. H.; Fu, X. Z.; Wang, S. Y. Etching oxide overlayers of NiFe phosphide to facilitate surface reconstruction for oxygen evolution reaction. Green Energy & Environment 2022, 7 (3), 365-371.

(156) Pan, Y. P.; Wang, S. Y.; Zou, Y. Q. NH3 production with low voltage. Chem Catalysis 2022, 2 (2), 231-233.

(157) Lu, Y. X.; Liu, T. Y.; Huang, Y. C.; Zhou, L.; Li, Y. Y.; Chen, W.; Yang, L.; Zhou, B.; Wu, Y. D.; Kong, Z. J.; Huang, Z. F.; Li, Y. F.; Dong, C. L.; Wang, S. Y.; Zou, Y. Q. Integrated Catalytic Sites for Highly Efficient Electrochemical Oxidation of the Aldehyde and Hydroxyl Groups in 5-Hydroxymethylfurfural. ACS Catalysis 2022, 12 (7), 4242-4251.

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(159) Long, P.; Du, S. Q.; Liu, Q.; Tao, L.; Peng, C.; Wang, T. H.; Gu, K. Z.; Xie, C.; Zhang, Y. Q.; Chen, R.; Lu, S. F.; Cheng, Y.; Feng, W.; Wang, S. Y. Fluorination-enabled interface of PtNi electrocatalysts for high-performance high-temperature proton exchange membrane fuel cells. Science China-Materials 2022, 65 (4), 904-912.

(160) Liu, Z. X.; Qin, L. P.; Cao, X. X.; Zhou, J.; Pan, A. Q.; Fang, G. Z.; Wang, S. Y.; Liang, S. Q. Ion migration and defect effect of electrode materials in multivalent-ion batteries. Progress in Materials Science 2022, 125, 100911.

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(162) Liu, W. F.; Liu, P. G.; Lyu, Y. H.; Wen, J.; Hao, R.; Zheng, J. Y.; Liu, K. Y.; Li, Y. J.; Wang, S. Y. Advanced Zn-I2 Battery with Excellent Cycling Stability and Good Rate Performance by a Multifunctional Iodine Host. ACS Applied Materials & Interfaces 2022, 14 (7), 8955-8962.

(163) Liang, D.; Wu, J. C.; Xie, C.; Wen, J.; Lyu, Y.; Sofer, Z.; Zheng, J. Y.; Wang, S. Y. Efficiently and selectively photocatalytic cleavage of C-C bond by C3N4 nanosheets: Defect-enhanced engineering and rational reaction route. Applied Catalysis B-Environment and Energy 2022, 317, 121690.

(164) Li, W.; Zhao, L.; Jiang, X. L.; Chen, Z. K.; Zhang, Y. G.; Wang, S. Y. Confinement Engineering of Electrocatalyst Surfaces and Interfaces. Advanced Functional Materials 2022, 32 (46), 2207727.

(165) Li, W.; Wang, D. D.; Liu, T. Y.; Tao, L.; Zhang, Y. G.; Huang, Y. C.; Du, S. Q.; Dong, C. L.; Kong, Z. J.; Li, Y. F.; Lu, S. F.; Wang, S. Y. Doping-Modulated Strain Enhancing the Phosphate Tolerance on PtFe Alloys for High-Temperature Proton Exchange Membrane Fuel Cells. Advanced Functional Materials 2022, 32 (8), 2109244.

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(167) Li, M. Y.; Wang, T. H.; Zhao, W. X.; Wang, S. Y.; Zou, Y. Q. A Pair-Electrosynthesis for Formate at Ultra-Low Voltage Via Coupling of CO2 Reduction and Formaldehyde Oxidation. Nano-Micro Letters 2022, 14 (1), 211.

(168) Huang, Y. C.; Chen, W.; Xiao, Z. H.; Hu, Z. W.; Lu, Y. R.; Chen, J. L.; Chen, C. L.; Lin, H. J.; Chen, C. T.; Arul, K. T.; Wang, S. Y.; Dong, C. L.; Chou, W. C. In Situ/Operando Soft X-ray Spectroscopic Identification of a Co4+ Intermediate in the Oxygen Evolution Reaction of Defective Co3O4 Nanosheets. Journal of Physical Chemistry Letters 2022, 13 (35), 8386-8396.

(169) Huang, G.; Li, Y. Y.; Chen, R.; Xiao, Z. H.; Du, S. Q.; Huang, Y. C.; Xie, C.; Dong, C. L.; Yi, H. B.; Wang, S. Y. Electrochemically formed PtFeNi alloy nanoparticles on defective NiFe LDHs with charge transfer for efficient water splitting. Chinese Journal of Catalysis 2022, 43 (4), 1101-1110.

(170) He, J. Y.; Chen, W. X.; Gao, H. M.; Chen, Y. X.; Zhou, L.; Zou, Y. Q.; Chen, R.; Tao, L.; Lu, X.; Wang, S. Y. Tuning hydrogen binding modes within RuO2 lattice by proton and electron co-doping for active and stable acidic oxygen evolution. Chem Catalysis 2022, 2 (3), 578-594.

(171) He, G. C.; Yan, M. M.; Gong, H. S.; Fei, H. L.; Wang, S. Y. Ultrafast synthetic strategies under extreme heating conditions toward single-atom catalysts. International Journal of Extreme Manufacturing 2022, 4 (3), 032003.

(172) Fan, Z. Y.; Zhang, W. J.; Li, L.; Wang, Y. Q.; Zou, Y. Q.; Wang, S. Y.; Chen, Z. P. Recent developments in electrode materials for the selective upgrade of biomass-derived platform molecules into high-value-added chemicals and fuels. Green Chemistry 2022, 24 (20), 7818-7868.

(173) Du, S. Q.; Li, Y. Y.; Wu, X.; Huang, G.; Wu, Y. J.; Zhang, J. J.; Zhang, J.; Lu, S. F.; Cheng, Y.; Tao, L.; Wang, S. Y. FeP Modulated Adsorption with Hydrogen and Phosphate Species for Hydrogen Oxidation in High-Temperature Polymer Electrolyte Membrane Fuel Cells. Advanced Functional Materials 2022, 32 (7), 2106758.

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(175) Chen, W.; Wang, Y. Y.; Wu, B. B.; Shi, J. Q.; Li, Y. Y.; Xu, L. T.; Xie, C.; Zhou, W.; Huang, Y. C.; Wang, T. H.; Du, S. Q.; Song, M. L.; Wang, D. D.; Chen, C.; Zheng, J. Y.; Liu, J. L.; Dong, C. L.; Zou, Y. Q.; Chen, J.; Wang, S. Y. Activated Ni-OH Bonds in a Catalyst Facilitates the Nucleophile Oxidation Reaction. Advanced Materials 2022, 34 (27), 2105320.

(176) Zou, Y. Q.; Wang, S. Y. An Investigation of Active Sites for electrochemical CO2 Reduction Reactions: From In Situ Characterization to Rational Design. Advanced Science 2021, 8 (9), 2003579.

(177) Zhou, P.; Tao, L.; Tao, S. S.; Li, Y. C.; Wang, D. D.; Dong, X. W.; Frauenheim, T.; Fu, X. Z.; Lv, X. S.; Wang, S. Y. Construction of Nickel-Based Dual Heterointerfaces towards Accelerated Alkaline Hydrogen Evolution via Boosting Multi-Step Elementary Reaction. Advanced Functional Materials 2021, 31 (46), 2104827.

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(179) Zhou, B.; Zhang, Y. Q.; Wang, T. H.; Zhou, W.; Liu, J. L.; Zou, Y. Q.; Tao, L.; Lu, Y. B.; Wang, S. Y. Room-temperature chemical looping hydrogen production mediated by electrochemically induced heterogeneous Cu(I)/Cu( II) redox. Chem Catalysis 2021, 1 (7), 1493-1504.

(180) Zhou, B.; Zhang, N. N.; Wu, Y. J.; Yang, W. J.; Lu, Y. B.; Wang, Y. Y.; Wang, S. Y. An option for green and sustainable future: Electrochemical conversion of ammonia into nitrogen. Journal of Energy Chemistry 2021, 60, 384-402.

(181) Zhou, B.; Li, Y. Y.; Zou, Y. Q.; Chen, W.; Zhou, W.; Song, M. L.; Wu, Y. J.; Lu, Y. X.; Liu, J. L.; Wang, Y. Y.; Wang, S. Y. Platinum Modulates Redox Properties and 5-Hydroxymethylfurfural Adsorption Kinetics of Ni(OH)2 for Biomass Upgrading. Angewandte Chemie-International Edition 2021, 60 (42), 22908-22914.

(182) Zhou, B.; Dong, C. L.; Huang, Y. C.; Zhang, N. N.; Wu, Y. D.; Lu, Y. X.; Yue, X.; Xiao, Z. H.; Zou, Y. Q.; Wang, S. Y. Activity origin and alkalinity effect of electrocatalytic biomass oxidation on nickel nitride. Journal of Energy Chemistry 2021, 61, 179-185.

(183) Zheng, J. Y.; Lyu, Y. H.; Veder, J. P.; Johannessen, B.; Wang, R. L.; De Marco, R.; Huang, A. B.; Jiang, S. P.; Wang, S. Y. Electrochemistry-Assisted Photoelectrochemical Reduction of Nitrogen to Ammonia. Journal of Physical Chemistry C 2021, 125 (42), 23041-23049.

(184) Zhang, Y. Q.; Zhou, B.; Wei, Z. X.; Zhou, W.; Wang, D. D.; Tian, J.; Wang, T. H.; Zhao, S. L.; Liu, J. L.; Tao, L.; Wang, S. Y. Coupling Glucose-Assisted Cu(I)/Cu(II) Redox with Electrochemical Hydrogen Production. Advanced Materials 2021, 33 (48), 2104791.

(185) Zhang, T. R.; Wang, S. Y. Noble-Metal-Free Electrocatalysis Preface. Acta Physico-Chimica Sinica 2021, 37 (7), 2012052.

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(187) Yang, C. M.; Lu, Y. X.; Zhang, L.; Kong, Z. J.; Yang, T. Y.; Tao, L.; Zou, Y. Q.; Wang, S. Y. Defect Engineering on CeO2-Based Catalysts for Heterogeneous Catalytic Applications. Small Structures 2021, 2 (12), 2100058.

(188) Yang, C. M.; Lu, Y. X.; Duan, W.; Kong, Z. J.; Huang, Z. F.; Yang, T. Y.; Zou, Y. Q.; Chen, R.; Wang, S. Y. Recent Progress and Prospective of Nickel Selenide-Based Electrocatalysts for Water Splitting. Energy & Fuels 2021, 35 (18), 14283-14303.

(189) Xu, J.; Zhang, Y. Q.; Huang, Z. F.; Jia, C. K.; Wang, S. Y. Surface Modification of Carbon-Based Electrodes for Vanadium Redox Flow Batteries. Energy & Fuels 2021, 35 (10), 8617-8633.

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(191) Wang, Y. Q.; Skaanvik, S. A.; Xiong, X. Y.; Wang, S. Y.; Dong, M. D. Scanning probe microscopy for electrocatalysis. Matter 2021, 4 (11), 3483-3514.

(192) Wang, S. Y.; Zhang, Q.; Zhang, W.; Jia, Y. Defect Chemistry Special Collection. Chemistry-an Asian Journal 2021, 16 (2), 112-113.

(193) Wang, S. Y. Ultrathin Carbon Encapsulating Transition Metal-Doped MoP Electrocatalysts for Hydrogen Evolution Reaction. Acta Physico-Chimica Sinica 2021, 37 (7), 2011013.

(194) Wang, D. D.; He, N. H.; Xiao, L.; Dong, F.; Chen, W.; Zhou, Y. Y.; Chen, C.; Wang, S. Y. Coupling Electrocatalytic Nitric Oxide Oxidation over Carbon Cloth with Hydrogen Evolution Reaction for Nitrate Synthesis. Angewandte Chemie-International Edition 2021, 60 (46), 24605-24611.

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(196) Tao, L.; Wang, S. Y. Turning waste into wealth. Joule 2021, 5 (6), 1328-1330.

(197) Ni, W. P.; Liu, Z. X.; Zhang, Y.; Ma, C.; Deng, H. Q.; Zhang, S. G.; Wang, S. Y. Electroreduction of Carbon Dioxide Driven by the Intrinsic Defects in the Carbon Plane of a Single Fe-N4 Site. Advanced Materials 2021, 33 (1), 2003238.

(198) Ni, W. P.; Gao, Y.; Lin, Y.; Ma, C.; Guo, X. G.; Wang, S. Y.; Zhang, S. G. Nonnitrogen Coordination Environment Steering Electrochemical CO2-to-CO Conversion over Single-Atom Tin Catalysts in a Wide Potential Window. ACS Catalysis 2021, 11 (9), 5212-5221.

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(202) Kong, Z. J.; Zhang, D. C.; Lu, Y. X.; Yang, C. M.; Du, S. Q.; Li, W.; Tao, L.; Wang, S. Y. Advanced Cathode Electrocatalysts for Fuel Cells: Understanding, Construction, and Application of Carbon-Based and Platinum-Based Nanomaterials. Acs Materials Letters 2021, 3 (12), 1610-1634.

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(204) Huang, G.; Li, Y. Y.; Du, S. Q.; Wu, Y. J.; Chen, R.; Zhang, J.; Cheng, Y.; Lu, S. F.; Tao, L.; Wang, S. Y. Silica-facilitated proton transfer for high-temperature proton-exchange membrane fuel cells. Science China-Chemistry 2021, 64 (12), 2203-2211.

(205) He, J. Y.; Liu, Y. B.; Huang, Y. C.; Li, H.; Zou, Y. Q.; Dong, C. L.; Wang, S. Y. Fe2+-Induced In Situ Intercalation and Cation Exsolution of Co80Fe20(OH)(OCH3) with Rich Vacancies for Boosting Oxygen Evolution Reaction. Advanced Functional Materials 2021, 31 (15), 2009245.

(206) Han, P. F.; Jin, P.; Li, X.; Xu, Y.; Li, K.; Wang, S. Y.; Nie, Z. Photoactivation of ambient oxygen via plasmon-coupled valence-band hybridization in AgPd nanoalloy for reaction pathway alteration. Applied Catalysis B-Environmental 2021, 298, 120598.

(207) Guo, S. J.; Zhang, Q.; Wang, S. Y. Emerging Small Science on Nanomaterials for Energy Storage and Catalysis. Small Science 2021, 1 (10), 2100101.

(208) Gu, K. Z.; Zhu, X. Y.; Wang, D. D.; Zhang, N. N.; Huang, G.; Li, W.; Long, P.; Tian, J.; Zou, Y. Q.; Wang, Y. Y.; Chen, R.; Wang, S. Y. Ultrathin defective high-entropy layered double hydroxides for electrochemical water oxidation. Journal of Energy Chemistry 2021, 60, 121-126.

(209) Gu, K. Z.; Wang, D. D.; Xie, C.; Wang, T. H.; Huang, G.; Liu, Y. B.; Zou, Y. Q.; Tao, L.; Wang, S. Y. Defect-Rich High-Entropy Oxide Nanosheets for Efficient 5-Hydroxymethylfurfural Electrooxidation. Angewandte Chemie-International Edition 2021, 60 (37), 20253-20258.

(210) Dong, X. W.; Zhang, Y. Q.; Song, M. L.; Tao, S. S.; Wang, H. F.; Zhou, P.; Wang, D. D.; Wu, Y. J.; Chen, C. M.; Su, C. L.; Wang, S. Y. Colloid self-assembly of c-axis oriented hydroxide thin films to boost the electrocatalytic oxidation reaction. Chemical Engineering Journal 2021, 420, 130532.

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(223) Xiao, Z. H.; Huang, Y. C.; Dong, C. L.; Xie, C.; Liu, Z. J.; Du, S. Q.; Chen, W.; Yan, D. F.; Tao, L.; Shu, Z. W.; Zhang, G. H.; Duan, H. G.; Wang, Y. Y.; Zou, Y. Q.; Chen, R.; Wang, S. Y. Operando Identification of the Dynamic Behavior of Oxygen Vacancy-Rich Co3O4 for Oxygen Evolution Reaction. Journal of the American Chemical Society 2020, 142 (28), 12087-12095.

(224) Wu, X.; Tang, C. J.; Cheng, Y.; Min, X. B.; Jiang, S. S.; Wang, S. Y. Bifunctional Catalysts for Reversible Oxygen Evolution Reaction and Oxygen Reduction Reaction. Chemistry-a European Journal 2020, 26 (18), 3906-3929.

(225) Wang, Y. Q.; Tao, L.; Chen, R.; Li, H.; Su, H.; Zhang, N. N.; Liu, Q. H.; Wang, S. Y. Atomically Dispersed Fe on Nanosheet-linked, Defect-rich, Highly N-Doped 3D Porous Carbon for Efficient Oxygen Reduction. Chemical Research in Chinese Universities 2020, 36 (3), 453-458.

(226) Wang, R. L.; Lyu, Y. H.; Du, S. A.; Zhao, S. Y.; Li, H.; Tao, L.; Jiang, S. P.; Zheng, J. Y.; Wang, S. Y. Defect repair of tin selenide photocathode via in situ selenization: enhanced photoelectrochemical performance and environmental stability. Journal of Materials Chemistry A 2020, 8 (10), 5342-5349.

(227) Qiao, M. F.; Wang, Y.; Wang, Q.; Hu, G. Z.; Mamat, X.; Zhang, S. S.; Wang, S. Y. Hierarchically Ordered Porous Carbon with Atomically Dispersed FeN4 for Ultraefficient Oxygen Reduction Reaction in Proton-Exchange Membrane Fuel Cells. Angewandte Chemie-International Edition 2020, 59 (7), 2688-2694.

(228) Qiao, L. L.; Zhu, A. Q.; Zeng, W. X.; Dong, R.; Tan, P. F.; Ding, Z. P.; Gao, P.; Wang, S. Y.; Pan, J. Achieving electronic structure reconfiguration in metallic carbides for robust electrochemical water splitting. Journal of Materials Chemistry A 2020, 8 (5), 2453-2462.

(229) Lyu, Y. H.; Zheng, J. Y.; Xiao, Z. H.; Zhao, S. Y.; Jiang, S.; Wang, S. Y. Identifying the Intrinsic Relationship between the Restructured Oxide Layer and Oxygen Evolution Reaction Performance on the Cobalt Pnictide Catalyst. Small 2020, 16 (14), 1906867.

(230) Lu, Y. X.; Zou, Y. Q.; Zhao, W. X.; Wang, M. X.; Li, C. Y.; Liu, S. M.; Wang, S. Y. Nanostructured electrocatalysts for electrochemical carboxylation with CO2. Nano Select 2020, 1 (2), 135-151.

(231) Lu, Y. X.; Dong, C. L.; Huang, Y. C.; Zou, Y. Q.; Liu, Y. B.; Li, Y. Y.; Zhang, N. N.; Chen, W.; Zhou, L.; Lin, H. Z.; Wang, S. Y. Hierarchically nanostructured NiO-Co3O4 with rich interface defects for the electro-oxidation of 5-hydroxymethylfurfural. Science China-Chemistry 2020, 63 (7), 980-986.

(232) Liu, Z. J.; Wang, G. J.; Zhu, X. Y.; Wang, Y. Y.; Zou, Y. Q.; Zang, S. Q.; Wang, S. Y. Optimal Geometrical Configuration of Cobalt Cations in Spinel Oxides to Promote Oxygen Evolution Reaction. Angewandte Chemie-International Edition 2020, 59 (12), 4736-4742.

(233) Li, Y. X.; Chen, R.; Yan, D. F.; Wang, S. Y. Regulation of Morphology and Electronic Structure of NiSe2by Fe for High Effective Oxygen Evolution Reaction. Chemistry-an Asian Journal 2020, 15 (22), 3845-3852.

(234) Li, W.; Wang, D. D.; Zhang, Y. Q.; Tao, L.; Wang, T. H.; Zou, Y. Q.; Wang, Y. Y.; Chen, R.; Wang, S. Y. Defect Engineering for Fuel-Cell Electrocatalysts. Advanced Materials 2020, 32 (19), 1907879.

(235) Li, Q. L.; Li, S.; Ajouyed, O.; Chen, C.; Zhou, Y. Y.; Li, C. H.; Niu, S. Y.; Yi, H. B.; Huo, J.; Wang, S. Y. Room temperature plasma enriching oxygen vacancies of WO3 nanoflakes for photoelectrochemical water oxidation. Journal of Alloys and Compounds 2020, 816, 152610.

(236) Li, H.; Du, K.; Xiang, C. S.; An, P. F.; Shu, X. X.; Dang, Y. R.; Wu, C. S.; Wang, J.; Du, W.; Zhang, J. T.; Li, S. G.; Tian, H.; Wang, S. Y.; Xia, H. B. Controlled chelation between tannic acid and Fe precursors to obtain N, S co-doped carbon with high density Fe-single atom-nanoclusters for highly efficient oxygen reduction reaction in Zn-air batteries. Journal of Materials Chemistry A 2020, 8 (33), 17136-17149.

(237) He, J. Y.; Zou, Y. Q.; Huang, Y. C.; Li, C. H.; Liu, Y. B.; Zhou, L.; Dong, C. L.; Lu, X.; Wang, S. Y. Interlayer ligand engineering of β-Ni(OH)2 for oxygen evolution reaction. Science China-Chemistry 2020, 63 (11), 1684-1693.

(238) Fu, W. W.; Wang, Y. W.; Tian, W.; Zhang, H. J.; Li, J.; Wang, S. Y.; Wang, Y. Non-Metal Single-Phosphorus-Atom Catalysis of Hydrogen Evolution. Angewandte Chemie-International Edition 2020, 59 (52), 23791-23799.

(239) Ding, S. S.; Zhou, B. X.; Chen, C. M.; Huang, Z.; Li, P. C.; Wang, S. Y.; Cao, G. Z.; Zhang, M. Sulfur-Rich (NH4)2Mo3S13 as a Highly Reversible Anode for Sodium/Potassium-Ion Batteries. Acs Nano 2020, 14 (8), 9626-9636.

(240) Ding, S. S.; Zhou, B. X.; Chen, C. M.; Huang, Z.; Li, P. C.; Wang, S. Y.; Cao, G. H.; Zhang, M. Three-Dimensional Self-assembled Hairball-Like VS4 as High-Capacity Anodes for Sodium-Ion Batteries. Nano-Micro Letters 2020, 12 (1), 39.

(241) Chen, W.; Xie, C.; Wang, Y. Y.; Zou, Y. Q.; Dong, C. L.; Huang, Y. C.; Xiao, Z. H.; Wei, Z. X.; Du, S. Q.; Chen, C.; Zhou, B.; Ma, J. M.; Wang, S. Y. Activity Origins and Design Principles of Nickel-Based Catalysts for Nucleophile Electrooxidation. Chem 2020, 6 (11), 2974-2993.

(242) Chen, C.; Zhu, X. R.; Wen, X. J.; Zhou, Y. Y.; Zhou, L.; Li, H.; Tao, L.; Li, Q. L.; Du, S. Q.; Liu, T. T.; Yan, D. F.; Xie, C.; Zou, Y. Q.; Wang, Y. Y.; Chen, R.; Huo, J.; Li, Y. F.; Cheng, J.; Su, H.; Zhao, X.; Cheng, W. R.; Liu, Q. H.; Lin, H. Z.; Luo, J.; Chen, J.; Dong, M. D.; Cheng, K.; Li, C. G.; Wang, S. Y. Coupling N2 and CO2 in H2O to synthesize urea under ambient conditions. Nature Chemistry 2020, 12 (8), 717–724.

(243) Chen, C.; Tao, L.; Du, S. Q.; Chen, W.; Wang, Y. Y.; Zou, Y. Q.; Wang, S. Y. Advanced Exfoliation Strategies for Layered Double Hydroxides and Applications in Energy Conversion and Storage. Advanced Functional Materials 2020, 30 (14), 1909832.

Representive Publication  

42. Identifying the Geometric Site Dependence of Spinel Oxides for the Electrooxidation of 5-Hydroxymethylfurfural, Angew. Chem. Int. Ed., 2020, Accepted.

41. Activity Origins and Design Principles of Nickel-based Catalysts for Nucleophile Electrooxidation, CHEM, 2020, ACCEPTED.
 

40. Coupling N2 and CO2 in H2O to synthesize urea under ambient conditions, Nature Chemistry, 2020, DOI: 10.1038/s41557-020-0481-9
 

39.  Operando Identification of the Dynamic Behavior of Oxygen Vacancy-rich Co3O4 for Oxygen Evolution Reaction, J. Am. Chem. Soc., 2020, DOI: 10.1021/jacs.0c00257
 

38.  Advanced exfoliation strategies for layered double hydroxide s and  applications in energy conversion and storage, Advanced Functional  Materials, 2020, 10.1002/adfm.201909832
 

37. Optimal Geometrical Configuration of Cobalt Cations in Spinel Oxides to Promote Oxygen Evolution Reaction, Angew. Chem. Int. Ed., 2020, DOI: 10.1002/anie.201914245  

36. Defect Engineering on Electrode Materials for Rechargeable Batteries, Advanced Materials, 2019, DOI: 10.1002/adma.201905923
 

35. Hierarchically Ordered Porous Carbon with Atomically Dispersed FeN4 for Ultra-efficient Oxygen Reduction Reaction in PEMFC, Angew. Chem. Int. Ed., 2019, DOI: 10.1002/anie.201914123
 

34. Electron localization of gold in control of nitrogen-to-ammonia fixation, Angew. Chem. Int. Ed., 2019, DOI: 10.1002/anie.201909477
 

33.  Electrochemical Oxidation of 5-Hydroxymethylfurfural on Nickel  Nitride/Carbon Nanosheets: Reaction Pathway Determined by In Situ Sum  Frequency Generation Vibrational Spectroscopy, Angew. Chem. Int. Ed., 2019, DOI: 10.1002/anie.201908722
 

32. Insight into the design of defect electrocatalysts: from electronic structure to adsorption energy, Materials Today, 2019, DOI: 10.1016/j.mattod.2019.05.021
 

31. Charge transfer modulated activity of carbon-based electrocatalysts, Advanced Energy Materials, 2019, 1901227
 

30.  Efficiency and stability of narrow-gap semiconductor-based  photoelectrodes, Energy Evironmental Science, 2019, DOI: DOI:  10.1039/C9EE00524B
 

29. Zirconium Regulation Induced Bifunctionality in 3D Cobalt-Iron Oxide Nanosheets for Overall Water Splitting,  Advanced Materials, 2019, 10.1002/adma.201901439
 

28.  Jianyun Zheng, Yanhong Lyu, Man Qiao, Ruilun Wang, Yangyang Zhou, Hao  Li, Chen Chen, Yafei Li,*, Huaijuan Zhou,*, San Ping Jiang,*, Shuangyin  Wang*, Photoelectrochemical synthesis of ammonia on the  aerophilic-hydrophilic heterostructure with 37.8% efficiency, CHEM, 2019, 5, 617-633  

27. Li  Tao, Man Qiao, Rong Jin, Yan Li, Zhaohui Xiao, Yuqing Wang, Nana Zhang,  Chao Xie, Qinggang He, Dechen Jiang, Gang Yu,* Yafei Li,* Shuangyin  Wang*, "Bridging the Surface Charge and Catalytic Activity of Defective Carbon Electrocatalyst", Angew. Chem. Int. Ed., 2019, DOI: 10.1002/anie.201810207  

26. Kun  Gao, Bin Wang, Tao Li, Benjamin V. Cunning, Zhipan Zhang, Shuangyin  Wang,* Rodney S. Ruoff,*  and Liangti Qu*, "Efficient Metal-Free  Electrocatalysts from N-Doped CarbonNanomaterials: Mono-Doping and  Co-Doping", Advanced Materials, 2018, DOI: 10.1002/adma.201805121  

25. Jianyun Zheng, Yanhong Lyu, Ruilun Wang, Chao Xie, Huaijuan Zhou^*, San Ping Jiang, Shuangyin Wang*,   Crystalline TiO2 protective layer with graded oxygen defects for efficient and stable silicon-based photocathode", Nature Communications,  2018, DOI:s41467-018-05580-z  

24.  Li Tao, Yongliang Shi, Yu-Cheng Huang, Ru Chen, Yiqiong Zhang, Jia Huo,  Yuqin Zou, Gang Yu,* Jun Luo* Chung-Li Dong,* and Shuangyin Wang*，  “Interface Engineering of Pt and CeO2 Nanorods with Unique Interaction  for Methanol Oxidation”， Nano Energy, 2018, 53, 604-612
         23. Dawei  Chen, Man Qiao, Ying-Rui Lu, Li Hao, Dongdong Liu, Chung-Li Dong, Yafei  Li, Shuangyin Wang*, "Preferential Cation Vacancies in Perovskite  Hydroxide for the Oxygen Evolution Reaction", Angew. Chem. Int. Ed., 2018, 57, 8691-8696   

22. Jianyun  Zheng, Yanhong Lyu, Chao Xie, Ruilun Wang, Li Tao, Haibo Wu, Huaijuan  Zhou*, Sanping Jiang, and Shuangyin Wang* “Defect-Enhanced Charge  Separation and Transfer within Protection Layer/Semiconductor Structure  of Photoanode”, Adv. Mater. 2018, 30, 1801773.  

21. Hanwen Liu, Kui Hu, Dafeng Yan, Ru Chen, Yunqin Zou*, Hongbo Liu* and Shuangyin Wang*, "Recent Advances on Black Phosphorus for Energy Storage, Catalysis, and Sensor Applications, Advanced Materials,  2018, 30, 1800295.
 

         20. Qichen Wang, Yujin Ji, Yongpeng Lei*, Yaobing Wang , Yingde Wang, Youyong Li*, Shuangyin Wang* “Pyridinic-N-Dominated  Doped Defective Graphene as a Superior Oxygen Electrocatalyst for  Ultrahigh-Energy-Density Zn–Air Batteries” ACS Energy Letters, 2018, 3 (5), pp 1183-1191.  

         19. Yuqing Wang,⁺ Li Tao,⁺  Zhaohui Xiao, Ru Chen, Zhongqing Jiang, and Shuangyin Wang*,  Three-dimensional Carbon Electrocatalysts In-situ Constructed by  Defect-rich Nanosheets and Polyhedrons from NaCl-sealed Zeolitic  Imidazolate Frameworks", Adv. Func. Mater., 2018, 28, 1705356.   

         18. Shuo Dou, Li Tao, Ruilun Wang, Samir,  Ru Chen, Shuangyin Wang*, "Plasma-assisted Synthesis and Surface  Modification of Electrode Materials for Renewable Energy", Adv. Mater. 2018, 30, 1705850.  

         17. Zhaohui  Xiao,  Yu Wang,  Yu-Cheng Huang,  zengxi wei,  Chung-Li Dong*,  Jianmin  Ma,  SHAOHUA SHEN,  Yafei Li*, and Shuangyin Wang*, "Filling the Oxygen  Vacancies in Co3O4 with Phosphorus: an Ultra-efficient Electrocatalyst  for the Overall Water Splitting", Energy & Environmental Science, 2017, 10, 2563-2569    

         16. Yanyong  Wang, Chao Xie, Zhiyuan Zhang, Dongdong Liu, Ru Chen, and Shuangyin  Wang*,"In Situ Exfoliated, N-doped and Edge-rich Ultrathin Layered  Double Hydroxides Nanosheets for Oxygen Evolution Reaction", Advanced Functional Materials, 2018, 28, 1703363   

         15. Li Tao,Chun-Yu Lin, Shuo Dou^, Shi Feng, Dawei Chen, Dongdong Liu, Jia Huo, Zhenhai Xia,^* and Shuangyin Wang^{*, "}Creating  Coordinatively Unsaturated Metal Sites in Metal-Organic-Frameworks as  Efficient Electrocatalysts for the Oxygen Evolution Reaction: Insights  into the Active Centers", Nano Energy, 2017, 41, 417-425  

         14. Shuo Dou, Chung-Li Dong, Zhe Hu, Yu-Cheng  Huang, Jeng-lung Chen, Li Tao, Dafeng Yan, Dawei Chen, Shaohua Shen,*  Shulei Chou,* and Shuangyin Wang*, “Atomic-scale CoO_x Species in Metal-Organic-Frameworks for Oxygen Evolution Reaction”, Advanced Functional Materials, 2017, DOI:10.1002/adfm.201702546.  

13. Rong Liu,⁺ Yanyong Wang,⁺ Dongdong  Liu, Yuqin Zou,* and Shuangyin Wang*, “Water-plasma-enabled Exfoliation  of Ultrathin Layered Double Hydroxides Nanosheets with Multi-vacancies  for Water Oxidation", Advanced Materials, 2017, DOI: 10.1002/adma.201701546  

        12. Yanyong  Wang, Yiqiong Zhang, Zhijuan Liu, Shi Feng, Dongdong Liu, Mingfei  Shao, and Shuangyin Wang*, "Layered Double Hydroxide Nanosheets with  Multiple Vacancies Obtained by Dry Exfoliation as Highly Efficient  Oxygen Evolution Electrocatalysts", Angew. Chem. Int. Ed. 2017, DOI: 10.1002/anie.201701477.  

11.  Dafeng Yan, Yunxiao Li, Jia Huo, Ru Chen, Liming Dai, Shuangyin Wang*, Defect Chemistry of Non-precious Metal Electrocatalysts for Oxygen Reactions", Advanced Materials, 2017, DOI ：10.1002/adma.201606459  

10. Zhijuan Liu, Zhenghang Zhao, Yanyong Wang, Shuo Dou,  Dafeng Yan, Dongdong Liu, Zhenhai Xia,*  and Shuangyin Wang*, "In Situ Exfoliated, Edge-rich, Oxygen-functionalized Graphene from Carbon Fibers for Oxygen Electrocatalysis"，Advanced Materials, 2017, DOI: 10.1002/adma.201606207  

9. Qianqian Jiang, Lei Xu, Ning Chen, Han Zhang*, Liming Dai* and Shuangyin Wang*^,"Facile Synthesis of Black Phosphorus: an Efficient Electrocatalyst for the Oxygen Evolving Reaction", Angew. Chem. Int. Ed. 2016, 55, 13849-13853  

8. Lei Xu, Qianqian Jiang, Zhaohui Xiao, Xingyue Li, Jia Huo, Shuangyin Wang*, and Liming Dai，"Plasma-Engraved Co3O4 Nanosheets with Oxygen Vacancies and High Surface Area for Oxygen Evolution Reaction"，Angew. Chem. Int. Ed. 2016, 55, 5277-5281  

7. Zhaoling  Ma, Shuo Dou, Anli Shen, Li Tao, Liming Dai,* and Shuangyin Wang*  , "Sulfur Doped Graphene Derived from Cycled Lithium-Sulfur Batteries as  Metal-free Electrocatalyst for Oxygen Reduction Reaction" Angew. Chem. Int. Ed. 2015. 54, 1888-1892  

6. Anli  Shen, Yuqin Zou, Qiang Wang, Robert. Dryfe, Xiaobing Huang, Liming  Dai*, and Shuangyin Wang*, Oxygen Reduction Reaction in a Droplet on  Graphite: Direct Evidence that the Edge Is More Active than the Basal  Plane, Angew. Chem. Int. Ed. 2014, 53, 10804  

5. Shuo  Dou, Li Tao, Jia Huo,  Shuangyin Wang* and Liming Dai, "Etched and  Doped Co9S8/Graphene Hybrid for Oxygen Electrocatalysis",Energy & Environmental Science, 2016, 9，1320-1326  

4. Shuangyin  Wang,  Lipeng Zhang, Zhenhai Xia, Ajit Roy, Liming Dai*, “BCN Graphene  as Efficient Metal-free Electrocatalyst for Oxygen Reduction Reaction”, Angew. Chem. Int. Ed., 2012, 51, 4209-4212  

3.  Shuangyin  Wang, Dingshan Yu, Liming Dai*, “Polyelectrolyte-functionalized Carbon  Nanotubes as Efficient Metal-free Electrocatalysts for Oxygen  Reduction”, Journal of the American Chemical Society, 2011, 133, 5182-5185.   

2. Shuangyin  Wang, Eswaramoorthi Iyyamperumal, Ajit Roy, Yuhua Xue, Dingshan Yu,  Liming Dai*, “Vertically Aligned BCN Nanotubes as Efficient  Metal-free Electrocatalysts for Oxygen Reduction Reaction: A Synergetic  Effect via Co-doping with Boron and Nitrogen”, Angew. Chem. Int. Ed., 2011, 50, 11756-11760  

       1. Shuangyin  Wang, Dingshan Yu, Liming Dai*, Dong Wook Chang, Jong-Beom Baek,  “Polyelectrolyte-Functionalized Graphene as Metal-free Electrocatalysts  for Oxygen Reduction”, ACS Nano, 2011, 5, 6202