教育及科研经历：

2012年－2016年，齐齐哈尔大学，无机非金属材料工程，学士学位

2016年－2019年，河北工业大学，海洋材料化学与工程，硕士学位

2019年－2022年，南开大学，物理化学，博士学位

2022年－2024年，南开大学化学学院，博士后

2024年－2025年，多伦多大学机械与工业工程系，博士后

科研成果与代表作

研究方向聚焦在能源小分子电催化转化，研究内容主要为工业烟气中CO₂的捕集转化利用及碳基单原子/铜基催化材料的设计制备。以第一作者/通讯作者在Nat. Commun., ACS Catal., Appl. Catal. B-Environ. Energy, Adv. Funct. Mater.等期刊上发表论文12篇，合作发表论文20余篇；授权国家发明专利1项；承担国家自然科学基金青年/面上、博士后面上及企业横向等科研项目5项。10篇代表作如下：

(1) C. Wang, X. Wang, H. Ren, Y. Zhang, X. Zhou, J. Wang, Q. Guan, Y. Liu, W. Li*, Combining Fe nanoparticles and pyrrole-type Fe-N₄ sites on less-oxygenated carbon supports for electrochemical CO₂ reduction. Nat. Commun. 2023, 14, 5108.

(2) C. Wang, B. Chen, Q. Wang, H. Hu, R. Xia, J. Zhu, Q. Sun, Z. Wu, R.K. Miao, Q. Guan, Y. Liu*, M. Liu*, W. Li*, Dynamic activation of edge-hosted Co-N₄ sites for energy-efficient electrochemical CO₂ reduction at industry-level current density. ACS Catal. 2025, 15, 10, 8540-8550.

(3) C. Wang, B. Chen, H. Ren, X. Wang, W. Li, H. Hu, X. Chen, Y. Liu*, Q. Guan*, W. Li*, Stabilizing Ni single-atom sites through introducing low-valence Ni Species for durably efficient electrochemical CO₂ reduction. Appl. Catal. B-Environ. Energy 2025, 368, 125151.

(4) C. Wang, X. Hu, B. Chen, X. Wang, Q. Guan*, Y. Liu, W. Li*, Performance enhancement and active sites identification of Cu-Cd bimetallic oxide derived catalysts for electrochemical CO₂ reduction. J. Energy Chem. 2024, 91, 50-58.

(5) X. Wang#, C. Wang#, H. Ren, J. Lu, B. Chen, Y. Liu*, Q. Guan*, W. Li*, Accelerating proton and electron transfer enables highly active Fe-N-C catalyst for electrochemical CO₂ reduction. Adv. Funct. Mater. 2024, 34, 2311818.

(6) B. Chen, W. Li, R. Xia, X. Wang, H. Hu, H. Dai, Q. Guan, C. Wang*, Y. Liu*, W. Li*, Constructing and stabilizing Cu⁰/Cu⁺ sites through dual chlorine-induced strategy for CO₂ electroreduction to C₂H₄. J. Colloid. Interf. Sci. 2025, 699, 138237.

(7) C. Wang, Y. Liu, H. Ren, Q. Guan, S. Chou*, W. Li*, Diminishing the uncoordinated N species in Co-N-C catalysts toward highly efficient electrochemical CO₂ reduction. ACS Catal. 2022, 12, 2513-2521.

(8) C. Wang, H. Ren, Z. Wang, Q. Guan, Y. Liu*, W. Li*, A promising single-atom Co-N-C catalyst for efficient CO₂ electroreduction and high-current solar conversion of CO₂ to CO. Appl. Catal. B: Environ. 2022, 304, 120958.

(9) C. Wang, X. Hu, X. Hu, X. Liu, Q. Guan, R. Hao, Y. Liu*, W. Li*, Typical transition metal single-atom catalysts with a metal-pyridine N structure for efficient   CO₂ electroreduction. Appl. Catal. B: Environ. 2021, 296, 120331.

(10) C. Wang, J.X. Chen*, B. Hu, Z. Liu, C. Wang, J. Han, M. Su, Y. Li, C. Li, Modified chitosan-oligosaccharide and sodium silicate as efficient sustainable inhibitor for carbon steel against chloride-induced corrosion. J. Clean. Prod. 2019, 238, 117823.