招生专业：

• 硕士招生专业：学术型硕士：083000|环境科学与工程；专业学位硕士：085700|资源与环境
  

• 博士招生专业：学术型博士：083000|环境科学与工程；专业学位博士：085700|资源与环境
  

工作经历：

• 
  

  2012.10-2015.06 美国佐治亚理工学院  博士后

• 2015.09-至今 华南理工大学

  
  

教育经历：

• 2007.09-2012.06：美国加州大学圣克鲁兹分校，化学专业博士生；

• 2003.09-2007.06：中国科学技术大学材料科学与工程系，材料物理本科生。

社会、学会及学术兼职：

•  担任国家自然科学基金委、广东省科技项目评审专家，中国化学会电化学专委会期刊《电化学》青年编委（2022.01-2024.12），担任Adv. Mater.、Adv. Energy Mater.、Angew. Chem. Int. Ed.、J. Mater. Chem. A、等国际知名期刊审稿人。

研究方向：

1. 金属合金、高熵合金、金属单原子催化剂结构设计、可控制备、表界面电子结构调控及其电还原二氧化碳、电解水制氢气性能研究，利用原位表征技术及密度泛函理论催化反应机制

2. Au、Ag、Cu等具有等离激元活性合金催化剂的合成、其光学特性表征及其在电催化二氧化碳还原、甲醇氧化活性及其调控机制研究

科研项目

· 国家自然科学基金面上项目，“金属单原子催化剂结构调控及其电还原二氧化碳产多碳性能与机理研究”，2023/01-2026/12，直接经费54万；

· 国家自然科学基金依托大科学装置联合基金培育项目，“同步辐射原位红外光谱技术研究有机配体分子调控电催化还原CO2机制”，2020/01-2023/12，直接经费60万；

· 国家自然科学基金青年项目，“以CuSCN为空穴传输层的大面积高效率的钙钛矿太阳能电池”，2016/01-2019/12，直接经费20万；

学术成果

l 论文代表作：

1. Chaohui Wang, Jun Zhang, Kanghua Miao1, Mairui Long, Siyuan Lai, Shijun Zhao*, and Xiongwu Kang*, Octahedral nanocrystals of Ru-modified PtFeNiCuW high-entropy alloy: high performance towards pH-universal hydrogen evolution reaction, Adv. Mater., 2024, DOI: 10.1002/adma.202400433.  (IF=29.4)

2. Kanghua Miao, Jundi Qin, Jun Yang, Xiongwu Kang*, Synergy of Ni nanoclusters and single atom site: size effect on the performance of electrochemical CO2 reduction reaction and rechargeable Zn-CO2 batteries, Adv. Funct. Mater., 2024, DOI: 10.1002/adfm.202316824. (IF=19.232)

3. Yan Luo; Jun Yang*, Aidar Kuchkaev; Dmitry Yakhvarov*; Chuansheng Hu; Xiongwu Kang*; Cobalt phthalocyanine promoted copper catalysts toward enhanced electro reduction of CO2 to C2: synergistic catalysis or tandem catalysis? Journal of Energy Chemistry, 2024, 92, 499-507. (IF=13.599)

4. Kanghua Miao, Wendan Jiang, Zhaoqian Chen, Yan Luo, Dong Xiang, Chaohui Wang, and Xiongwu Kang*, Hollow-structured and polyhedron-shaped high entropy oxide towards highly active and robust oxygen evolution reaction in a full pH range, Adv. Mater., 2024, 36(8), 2308490 DOI: 10.1002/adma.202308490 (IF=29.4)

5. Dong Xiang, Kunzhen Li, Kanghua Miao, Ran Long, Yujie Xiong and Xiongwu Kang, Amine-functionalized copper catalysts: hydrogen bonding mediated electrochemical CO2 reduction to C2 products and superior rechargeable Zn-CO2 battery performance, Acta Phys. Chim. Sin., 2024, 40, 2308027(IF=10.9)

6. Jun Zhang, Chaohui Wang, Shasha Huang, Xuepeng Xiang, Yaoxu Xiong, Biao Xu, Shihua Ma, Haijun Fu, Jijung Kai, Xiongwu Kang*, Shijun Zhao*, Design high-entropy electrocatalyst via interpretable deep graph attention learning, Joule, 2023, 8, 1832-1851. (IF=39.2)

7. Bishan Zhang, Yan Luo, Dong Xiang, Kanghua Miao, XiuFang Wang, Xiongwu Kang*, Yong Tian *, Yolk-Shell Structured Zinc-Cobalt-Ruthenium Alloy Oxide Assembled with Ultra-Small Nanoparticles: A Superior Cascade Catalyst towards Oxygen Evolution Reaction, Adv. Funct. Mater. 2023, 33(24), 2214529 (IF=19.232)

8. Dong Xiang, Kunzhen Li, Manzhi Li, Ran Long, Yujie Xiong, Dmitry Yakhvarov*, Xiongwu Kang*, Theory-guided synthesis of heterostructured Cu@Cu0.4W0.6 catalyst towards superior electrochemical reduction of CO2 to C2 products, Materials Today Physics, 2023, 33, 101045. (IF=11.021)  

9. Rendian Wan, Shilong Liu, Yu Wang, Ye Yang, Yong Tian, Prashant K Jain* and Xiongwu Kang*, “Hot carrier lifetimes and electrochemical water dissociation enhanced by nickel doping of a plasmonic electrocatalyst”, Nano Letters, 2022, 22, 19, 7819-7825. (IF=12.262)

10. Zhaoqian Chen, Jingbo Wen, Chaohui Wang, and Xiongwu Kang*, Convex cube-shaped Pt34Fe5Ni20Cu31Mo9Ru high entropy alloy catalysts towards high-performance multifunctional electrocatalysis, Small, 2022, 18(45), 2204255 (IF=15.153)

11. Jiajv Lin, Yuan Zhou, Jingbo Wen, Weijie Si, Hongcheng Gao, Gongming Wang, Pyrrole derivatives as interlayer modifier of Li-S batteries: Modulation of electrochemical performance by molecular perturbation, J. Energy Chem., 2022, 75, 164-172. (IF=13.599)

12. Rendian Wan, Mi Luo, Jingbo Wen, Shilong Liu, Xiongwu Kang* and Yong Tian*, Pt-Co single atom alloy catalysts: Accelerated water dissociation and hydrogen evolution by strain regulation, J. Energy Chem., 2022, 69, 44-53. (IF=13.599)

13. Jingbo Wen, Zixuan Wan, Xiao Hu, Jianlin Huang*, Xiongwu Kang*, Restructuring of copper catalysts by potential cycling and enhanced two-carbon production for electroreduction of carbon dioxide, Journal of CO2 Utilization, 2022,56, 101846 (IF=7.254)

14. Shunlian Ning, Zhiwei Guo, Jigang Wang, Shaobin Huang, Shaowei Chen* and Xiongwu Kang*, Sn-doped CeO2 nanorods as high-performance electrocatalysts for CO2 reduction to formate, ChemElectroChem, 2021, 8, 2680-2685. (IF=4.154)

15. Weiquan Yu, Yongke Kong, Jv Lin, Hui Zheng*, Xiongwu Kang*, Flower‐like Spherical α‐Ni (OH)2 Derived NiP2 as Superior Anode Material of Sodium Ion Batteries, Chemistry–An Asian Journal, 2021, 16, 2100-2106. (IF=4.056)

16. Yuan Zhou, Hongcheng Gao, Shunlian Ning, Jiaju Lin, Jingbo Wen, Xiongwu Kang*, Polypyrrole/Graphene Composite Interlayer: High Redox Kinetics of Polysulfides and Electrochemical Performance of Lithium–Sulfur Batteries Enabled by Unique Pyrrolic Nitrogen Sites, ChemElectroChem, 2021, 8, 1798-1806. (IF=4.154)

17. Mi Luo, Jinyan Cai, Jiasui Zou, Zheng Jiang, Gongming Wang, and Xiongwu Kang*, Promoted Alkaline Hydrogen Evolution by N-doped Pt-Ru Single Atoms Alloy, J. Mater. Chem. A, 2021, 9, 14941. (IF=14.511)

18. Hongcheng Gao, Shunlian Ning, Jiaju Lin and Xiongwu Kang*, Molecular Perturbation of 2D Organic Modifiers on Porous Carbon Interlayer: Promoted Redox Kinetics of Polysulfides in Lithium-Sulfur Batteries, Energy Storage Materials, 2021, 40, 312-319. (IF=16.28)

19. Shunlian Ning, Jigang Wang, Dong Xiang, Shaobin Huang, Wei Chen, Shaowei Chen* and Xiongwu Kang*, “Electrochemical Reduction of SnO2 to Sn from the Bottom: In-Situ Formation of SnO2/Sn Heterostructure for Highly Efficient Electrochemical Reduction of Carbon Dioxide to Formate”, Journal of Catalysis, 2021, 399, 67-74. (IF=7.888)

20. Jigang Wang, Shunlian Ning, Mi Luo, Dong Xiang, Wei Chen, Xiongwu Kang*; Zheng Jiang* and Shaowei Chen*, “In-Sn alloy core-shell nanoparticles: In-doped SnOx shell enables high stability and activity towards selective formate production from electrochemical reduction of CO2” Applied Catalysis B: Environment, 2021, 288, 119979. (IF=16.8)

21. Shuang Men†, Jiajv Lin†, Yuan Zhou and Xiongwu Kang*, “N-doped porous carbon wrapped FeSe2 nanoframework prepared by spray drying: a potential large-scale production technique for high-performance anode materials of sodium ion batteries”, J. Power Sources, 2021, 485, 229310. (IF=8.247)

22. Lin Huang, Fengqi Zhang, Wenming Sun and Xiongwu Kang*, “Nitrene-Functionalized Ruthenium Nanoparticles: Spectral Evidence for the Conjugated Ruthenium-Nitrene π Bonds and the Impact on the Catalytic Activity”, Journal of Colloid Interface Science, 2021, 588, 761-766. (IF=7.489)

23. Hongcheng Gao†, Shunlian Ning†, Yuan Zhou, Shuang Men and Xiongwu Kang*, “Polyacrylonitrile-induced Formation of Core-Shell Carbon Nanocages: Enhanced Redox Kinetics towards polysulfides by Confined Catalysis in Li-S Batteries”, Chemical Engineering Journal, 2021, 408, 127323 (IF=10.65)

24. Shuang Men†, Hui Zheng†, Dejun Ma†, Xiaolian Huang, Xiongwu Kang*, “Unraveling the stabilization mechanism of solid electrolyte interface on ZnSe by rGO in sodium ion battery”, J. Energy Chem., 2021, 54, 124-130. (IF=7.216)

25. Xiao Hu†, Jiasui Zou†, Hongcheng Gao and Xiongwu Kang*, “Trimetallic Ru@AuPt Core-Shell Nanostructures: The Effect of Microstrain on CO Adsorption and Electrocatalytic Activity of Formic Acid Oxidation”, Journal of Colloid Interface Science, 2020, 570, 72-79. (IF=7.489)

26. Min Wu, Keyou Yan, Yong Yang* and Xiongwu Kang*, “High Crystallinity and Photovoltaic Performance of CsPbI3 Film Enabled by Secondary Dimension”, J. Energy Chem., 2020, 48, 181-186. (IF=7.216)

27. Hongcheng Gao, Shunlian Ning, JiasuiZoua, ShuangMena, YuanZhoua, XiujunWang, Xiongwu Kang*, “The electrocatalytic activity of BaTiO3 nanoparticles towards polysulfides enables high-performance lithium–sulfur batteries”, J. Energy Chem., 2020, 48, 208-216 (IF=7.216)

28. Xiaolian Huang, Shuang Men, Hui Zheng, Dong‐Dong Qin, Xiongwu Kang*, Highly Porous NiCoSe4 Microspheres as High‐Performance Anode Materials for Sodium‐Ion Batteries, Chemistry–An Asian Journal, 2020, 15, 1456-1463. (IF=4.056)

29. Hui Zheng, Shuang Men, Xiaolian Huang, Yuan Zhou, Hongcheng Gao, Jie Huang, Xiongwu Kang*, Three-dimensional hierarchical Ni5P4 nanospheres encapsulated in graphene as high-performance anode materials of sodium ion batteries, Journal of Materials Science, 2020, 55, 9027-9036. (IF=3.553)

30. Jigang Wang, Jiasui Zou, Xiao Hu, Shunlian Ning, Xiujun Wang, Xiongwu Kang* and Shaowei Chen*, Heterostructured Intermetallic CuSn Catalyst: High Performance towards the Electrochemical Reduction of CO2 to Formate, J. Mater. Chem. A, 2019, 7, 27514–27521. (IF=11.3)

31. Lin Huang, Jiasui Zou, Zhang Lin, Xiongwu Kang*, Prashant K. Jain*, and Shaowei Chen, “Synergy between plasmonic and electrocatalytic activation of methanol oxidation on Pd-Ag alloy nanotubes”, Angew. Chem. Int. Ed., 2019, 58, 8794 –8798. (IF=12.959)

32. Zhiwei Guo; Xiongwu Kang*; Xusheng Zheng; Jie Huang* and Shaowei Chen, PdCu Alloy Nanoparticles Supported on CeO2 Nanorods: Enhanced Electrocatalytic Activity by Synergy of Compressive Strain, PdO and Oxygen Vacancy, Journal of Catalysis, 2019, 374, 101. (IF=7.888)

33. Jiasui Zou, Min Wu, Shunlian Ning, Lin Huang, Xiongwu Kang*, and Shaowei Chen,Ru@Pt Core-Shell Nanoparticles: Impact of the Atomic Ordering of Ru Metal Core on the Electrocatalytic Activity of Pt Shell,  ACS Sustainable Chemistry & Engineering, 2019,7, 9007. (IF=7.632)

34. Zhaoqian Wei, XiaoHu, Shunlian Ning, Xiongwu Kang*, and Shaowei Chen*, Supported Heterostructured MoC/Mo2C Nanoribbons and Nanoflowers as Highly Active Electrocatalysts for Hydrogen Evolution Reaction, ACS Sustainable Chemistry & Engineering, 2019, 7, 8458 (IF=7.632)

35. Dejun Ma, Qiulan Zhu, Xintao Li, Hongcheng Gao, Xiufang Wang, Xiongwu Kang*, and Yong Tian*, Unraveling the Impact of Ether and Carbonate Electrolytes on the Solid–Electrolyte Interface and the Electrochemical Performances of ZnSe@C Core–Shell Composites as Anodes of Lithium-Ion Batteries, ACS Appl. Mater. Interfaces, 2019, 11, 8009–8017 (IF=8.758)

36. Fengqi Zhang, Jingjing Fang, Lin Huang, Wenming Sun, Zhang Lin, Zhenqing Shi, Xiongwu Kang*, and Shaowei Chen*, Alkyne-Functionalized Ruthenium Nanoparticles: Impact of Metal-Ligand Interfacial Bonding Interactions on the Selective Hydrogenation of Styrene, ACS Catal., 2019, 9, 98-104. (IF=12.35)

37. Jigang Wang, Fengqi Zhang, Xiongwu Kang* and Shaowei Chen*, Organic functionalization of metal catalysts: enhanced activity towards electroreduction of carbon dioxide, Curr. Opin. Electrochem., 2019, 13, 40. (IF=5.57)

38. Jun Yang, Hongcheng Gao, Shuang Men, Zhenqing Shi, Zhang Lin, Xiongwu Kang* and Shaowei Chen*, “CoSe2 nanoparticles encapsulated by N-doped carbon framework intertwined with carbon nanotubes: high-performance dual-role anode materials for both Li and Na ion batteries”, Advanced Science, 2018, 1800763. (IF=15.84)（高被引）

39. Lin Huang, Jun Yang, Min Wu, Zhenqing Shi, Zhang Lin, Xiongwu Kang* and Shaowei Chen, “PdAg@Pd core-shell nanotubes: superior catalytic performance towards electrochemical oxidation of formic acid and methanol”, J. Power Sources, 2018, 398, 201. (IF=8.247)

40. Xiongwu Kang*, Kanghua Miao, Zhiwei Guo, Jiasui Zou, Zhenqing Shi, Zhang Lin, Jie Huang*, Shaowei Chen, “PdRu alloy nanoparticles of solid solution in atomic scale: Size effects on electronic structure and catalytic activity towards electrooxidation of formic acid and methanol”, Journal of Catalysis, 2018, 364, 183 (IF= 7.888)

41. Jun Yang, Hongcheng Gao, Dejun Ma, Jiasui Zou, Zhang Lin, Xiongwu Kang*, Shaowei Chen*, High-performance Li-Se battery cathode based on CoSe2-porous carbon composites, Electrochim. Acta, 2018, 264, 341. (IF=5.166)

42. Fengqi Zhang, Lin Huang, Jiasui Zou, Jun Yang, Xiongwu Kang* and Shaowei Chen*, Isonitrile-functionalized ruthenium nanoparticles: intraparticle charge delocalization through Ru=C=N interfacial bonds, J. Nanopart. Res., 2017, 19, 308. (IF=2.12)

43. Kanghua Miao, Yun Luo, Jiasui Zou, Jun Yang, Fengqi Zhang, Lin Huang*, Jie Huang, Xiongwu Kang* and Shaowei Chen, PdRu alloy nanoparticles of solid solution in atomic scale: outperformance towards formic acid electro-oxidation in acidic medium, Electrochim. Acta, 2017, 251, 588. (IF=5.166)

44. Fengqi Zhang, Lin Huang, Jiaying Zhu, Jinwu Yan, Jiasui Zou, Xiongwu Kang* and Shaowei Chen*, Nitrile-functionalized ruthenium nanoparticles: charge delocalization through Ru-N=C interface, J. Nanopart. Res., 2017, 19, 106 (IF=2.12)

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45. Xiongwu Kang†, Junxiang Zhang†, Daniel O’Neil, Anthony J. Rojas, Wayne Chen, Paul Szymanski, Seth R. Marder* and Mostafa A. El-Sayed*, The effect of molecular structure perturbations on the performance of the D-A-π-A dye sensitized solar cells, Chemistry of Materials, 2014, 26, 4486−4493. （一区）（IF=7.233）

46. Xiongwu Kang†, Junxiang Zhang†, Anthony J. Rojas, Daniel O’Neil, Paul Szymanski, Seth R. Marder* and Mostafa A. El-Sayed*, Deposition of loosely bound organic D-A-π-A’ dyes on sensitized TiO2 film: a possible strategy to suppress charge recombination and enhance power conversion efficiency in dye-sensitized solar cells, Journal of Materials Chemistry A, 2014, 2, 11229-11234. （一区）（IF=7.233）

47. Xiongwu Kang, Nathaniel B. Zuckerman, Joseph P. Konopelski, and Shaowei Chen, “Electronic conductivity of alkyne-capped ruthenium nanoparticles”, Nanoscale, 2012, 4, 4183. （一区）（IF=7.233）

48. Xiongwu Kang, Xiang Li, William M. Hewitt, Nathaniel B. Zuckerman, Joseph P. Konopelski*, and Shaowei Chen, “Manipulation of Intraparticle Charge Delocalization by Selective Complexation of Transition-Metal Ions with Histidine”, Anal. Chem., 2012, 84, 2025.（一区）（IF=6.042）

49. Xiongwu Kang, Nathaniel B. Zuckerman, Joseph P. Konopelski, and Shaowei Chen, “Alkyne-protected ruthenium nanoparticles: ruthenium-vinylidene on metal-ligand interface”, J. Am. Chem. Soci., 2012,  134, 1412（1区）（IF=14.357）

50. Xiongwu Kang, Wei Chen, Nathaniel Zuckerman, Joseph Konopelski, Shaowei Chen, Intraparticle Charge Delocalization of Carbene-Functionalized Ruthenium Nanoparticles Manipulated by Selective Ion Binding, Langmuir, 2011, 27, 12636-12641. （2区）（IF=3.789）

51. Xiongwu Kang, Nathaniel B. Zuckerman, Joseph P. Konopelski, Shaowei Chen, Alkyne-Stabilized Ruthenium Nanoparticles: Manipulation of Intraparticle Charge Delocalization by Nanoparticle Charge States, Angew. Chem. Int. Ed., 2010, 49, 9496. （1区）（IF 12.1）

l 获得专利：

1. 一种自支撑三维铜锡合金材料及其制备方法与应用，发明人：康雄武、王继刚、陈少伟；专利号： 2019 1 1108785.5

2. 一种石墨烯包裹的双金属硒化物材料及其制备方法和应用，发明人：康雄武、黄小莲、秦冬冬；利号：2019 1 0928673.6

• 获奖：IAAM（国际先进能源材料协会）Scientist Metal （2023）

• 授课课程：环境与能源、环境化学

• 指导学生情况：已经指导博士生5名，硕士生26名。

• 学术兼职：现担任中国化学会电化学专委会期刊《电化学》青年编委（2022.01-2024.12），担任Adv. Mater.、Adv. Energy Mater.、Angew. Chem. Int. Ed.、J. Mater. Chem. A、等国际知名期刊审稿人。