2012年2月-2016年6月 本科 美国俄勒冈州立大学
2016年9月-2021年12月 博士 美国俄勒冈州立大学
2022年2月-2024年12月 博士后 美国阿贡国家实验室
2024年12月-至今 研究员 上海高等研究院

1.同步辐射技术及应用
2.X射线吸收光谱/色散吸收光谱
3.电化学催化剂/能源材料
4.海量数据处理

1.Clarivate Highly Cited Researcher, 2024
2.Argonne Postdoctoral Performance Award in Basic Research, 2024
3.Clarivate Highly Cited Researcher, 2023
4.Clarivate Highly Cited Researcher, 2022
5.OSU College of Engineering Graduate Research Assistant Award, 2020
国家优秀自费留学生奖学金, 2020

1. 中国科学院引才计划B类, 中国科学院计划, 负责人, 2024-12--2027-12
2. 中国科学院上海高等研究院拔尖人才计划, 研究所自主部署, 负责人,2024-12--2029-12

[1] M. Wang, B. Muhich, Z. He, Z. Yang, D. Yang, M. Lucero, H.Nguyen, G. Sterbinsky, L. Árnadóttir, H. Zhou, L. Fei, Z. Feng, “Metal Doping Regulates Electrocatalysts Restructuring during Oxygen Evolution Reaction”, ChemSusChem 2024, e202400332
[2] M. Wang; K. C. Chukwu; B. A. Muhich; W. S. Samarakoon; Z. He; M. Lucero; C.-W. Chang; A. Chang; D. Yang; S. Kaur; A. T. N’Diaye; G. E. Sterbinsky; Y. Du; L. Fei; L. Árnadóttir; Z. Feng, “The role of nonmetallic ion substitution in perovskite LaCoO3 for improved oxygen evolution reaction activity”. Electrochim Acta 2023, 466, 143034.
[3] Y. Li⊥, W. Shan⊥, M. J. Zachman⊥, M. Wang⊥, S. Hwang, H. Tabassum, J. Yang, X. Yang, S. Karakalos, Z. Feng, G. Wang, G. Wu, "Atomically Dispersed Dual-Metal Site Catalysts for Enhanced CO2 Reduction: Mechanistic Insight into Active Site Structures”, Angewandte Chemie International Edition, 2022
[4] Y. Li⊥, N. M. Adli⊥, W. Shan⊥, M. Wang⊥, M. J. Zachman, S. Hwang, H. Tabassum, S. Karakalos, Z. Feng, G. Wang, Y. C. Li, and G. Wu, "Atomically Dispersed Single Ni Site Catalysts for High-Efficiency CO2 Electroreduction at Industrial‐Level Current Densities", Energy & Environmental Science, 2022.
[5] Y. Chen⊥, Y. Sun⊥, M. Wang⊥, J. Wang, H. Li, S. X, C. Wei, P. Xi, G. Sterbinsky, J. Freeland, A. Fisher, J.  Ager III, Z. Feng, and Z. Xu, “Lattice-site-dependent metal leaching in perovskites towards a honeycomb-like water oxidation catalyst”, Science Advances, 7, 50, 2021
[6] M. Wang⊥, Q. Wa⊥, X. Bai⊥, Z. He, W. Samarakoon, Q. Ma, Y. Du, Y. Chen, H. Zhou,* Y. Liu,* X. Wang, and Z. Feng, “The Restructuring-Induced CoOx Catalyst for Electrochemical Water Splitting”, JACS Au, 1, 12, 2216-2223, 2021
[7].M. Wang, Z. Feng, "Interfacial Processes in Electrochemical Energy Systems", Chemical Communications, 1703, 2021. 
[8] Z. Li⊥, Q. Wang⊥, X. Bai⊥, M.Wang⊥, Z. Yang, Y.Du, G. Sterbinsky, D. Wu, Z. Yang, M. Gu, Y. Liu, Z. Feng, and Y. Yang, "Doping-modulated Strain Control of Bifunctional Electrocatalysis for Rechargeable Zinc-air Batteries", Energy & Environmental Science, 14, 5035-5043, 2021. 
[9] M. Wang, Z. Feng, "Pitfalls in X-ray Absorption Spectroscopy Analysis and Interpretation: A Practical Guide for General Users", Current Opinion in Electrochemistry, 30, 100803, 2021.
[10] C. Cai⊥, M. Wang⊥, S. B. Han, Q. Wang, Q. Zhang, Y. M. Zhu, X. M. Yang, D. J. Wu, X. T. Zu, G. E. Sterbinsky, Z. X. Feng and M. Gu, “Ultrahigh Oxygen Evolution Reaction Activity Achieved Using Ir Single Atoms on Amorphous CoOx Nanosheets", ACS Catalysis, 11, 1, 123–130, 2021
[11] J. Guo⊥, M. Wang⊥, L. Xu⊥, X. Li, A. Iqbal, G. Sterbinsky, H. Yang, M. Xie, J. Zai, Z. Feng, T. Cheng, X. Qian. "Bioinspired Activation of N2 on Asymmetrical Coordinated Fe grafted 1T MoS2 at Room Temperature", Chinese Journal of Chemistry, 39, 1898-1904, 2021. 
[12] C. Hu⊥, E. Song⊥, M. Wang⊥, W. Chen, F. Huang, Z. Feng, J. Liu, and J. Wang, "Partial-Single-Atom, Partial-Nanoparticle CompositesEnhance Water Dissociation for Hydrogen Evolution", Advanced Science, 7, 2001881, 2021
[13] S. Liu⊥, M. Wang⊥, X. Yang⊥, Q. Shi, Q. Zhi, M. Lucero, Q. Ma,  K. L. More, D. A. Cullen, Z. Feng, G. Wu, "Chemical Vapor Deposition for Atomically Dispersed and Nitrogen Coordinated Single Metal Site Catalysts", Angewandte Chemie International Edition, 59, 21698-21705, 2020
[14] X. Zhang⊥, Y. Wang⊥, M. Gu⊥, M. Wang⊥, Z. Zhang, W. Pan, Z. Jiang, H. Zheng, M. Lucero, H. Wang, G. E. Sterbinsky, Q. Ma, Y.-G. Wang, Z. Feng, J. Li, H. Dai, Y. Liang, "Molecular engineering of dispersed nickel phthalocyanines on carbon nanotubes for selective CO2 reduction", Nature Energy, 5, 684–692, 2020
[15] L. Ju⊥, G. Wang⊥, K. Liang⊥, M. Wang⊥, G. E. Sterbinsky, Z. Feng, and Y. Yang, "Significantly Improved Cyclability of Conversion-Type Transition Metal Oxyfluoride Cathodes by Homologous Passivation Layer Reconstruction", Advanced Energy Materials, 10, 9, 2020.
[16] Q. Gong,† P. Ding,† M. Xu,† X. Zhu,† M. Wang,† J. Deng, Q. Ma, N. Han, Y. Zhu, J. Lu, Z. Feng, Y. Li, W. Zhou, Y. Li, “Highly Active Electrochemical CO2 Reduction to Formate Enabled by Structural Defects on Converted Bi2O3 Nanotubes”, Nature Communications, 10, 2807, 2019
[17] M. Wang, L. Árnadóttir, Z. Xu, Z. Feng, “In-situ X-ray Absorption Spectroscopy Studies of Nanoscale Electrocatalysts”, Nano-Micro Letters, 11, 47, 2019
[18] M. Wang, B. Han, J. Deng, Y. Jiang, M. Zhou, M. Lucero, Y. Wang, Y. Chen, Z. Yang, A. T. N’Diaye, Q. Wang, Z. J. Xu, and Z. Feng, “The Influence of Fe substitution into LaCoO3-Electrocatalysts on Oxygen-Reduction Activity”, ACS Applied Materials & Interfaces, 11, 5682-5686, 2019
[19] Z. Cai⊥, D. Zhou⊥, M. Wang⊥, S.-M. Bak, Y. Wu, Z. Wu, Y. Tian, X. Xiong, Y. Li, W. Liu, S. Siahrostami, Y. Kuang, X.-Q. Yang, H. Duan, Z. Feng, H. Wang, and X. Sun, “Introducing Fe2+ into Nickel-Iron Layered Double Hydroxide: Local Structure Modulated Water Oxidation Activity”, Angewandte Chemie International Edition, 130, 9536-9540, 2018
Z. Weng⊥, Y. Wu⊥, M. Wang⊥, J. Jiang, K. Yang, S. Huo, X.-F. Wang, Q. Ma, G. W. Brudvig, V. S. Batista, Y. Liang, Z. Feng, H. Wang, “Active Sites of Cu-Complex Catalytic Materials for Electrochemical CO2 Reduction", Nature Communications, 9, 415, 2018.