王晨

王晨 博士后

研究方向：无机多孔材料膜结构调控及分离机制研究

邮箱：wangchen@dlut.edu.cn; wangchensdut@163.com

教育经历：

2020/09—2023/09 大连理工大学，化学工艺，工学博士

2017/09—2020/06 山东理工大学，化学工程与技术，工学硕士

2013/09—2017/06 山东理工大学，应用化学，工学学士

工作经历：

2024/12-2025/12 日本京都大学iCeMs研究所，访问学者，合作导师：Susumu Kitagawa（诺奖候选人）

2023/10-至今 大连理工大学，助理研究员，合作导师：刘毅教授

近五年主持或参加的科研项目/课题：

1.电化学辅助调控 Ti-MOF 膜微介观结构及气体分离机理研究，国家自然科学基金青年基

金项目，2025/01-2027/12，30 万，在研，主持

2.基于多尺度协同调变高价态 MOF 膜结构以优化气体分离性能的研究，国家资助博士后研

究人员计划资助，中国博士后科学基金会，2023/10 -2025/10，24 万，在研，主持

3. 门控型金属-有机骨架膜用于 C6-C8 烃类异构体分离，辽宁滨海实验室联合专项开放创新基金类项目，2024/09-2025/ 06，100万，在研，第一参与人

4. 单原子掺杂的双金属团簇催化剂的精准构建及其催化性能强化机制的研究, 国家自然科学基金青年基金项目，2019/01- 2021/12，25.2万元，结题，参与

发表论文：

[1] Chen Wang, Yanwei Sun, et al. Titanium-Oxo Cluster Assisted Fabrication of a Defect-Rich TiMOF Membrane Showing Versatile Gas-Separation Performance [J] Angewandte Chemie International Edition, 2022, 61(26): e202203663

[2] Chen Wang, Jiahui Yan, Shengyan Meng, et al. Fabrication of Highly c-oriented Defect-rich MIL-125 Membrane from Nanosheets towards Exceptional CO2/N2 Separation [J] Journal of Membrane Science, 2024, 711: 123185

[3] Chen Wang, Taotao Ji, Yuyang Wu, et al. Fabrication of MIL-125 Membrane with Unprecedented CO2/N2 Selectivity Using Ti6-oxo Cluster Source [J]. ACS Materials Letters, 2023, 5, 1311-1316

[4] Chen Wang, Yuepeng Liu, Zhongfang Li, et al. Novel space-confinement synthesis of twodimensional Fe, N-codoped graphene bifunctional oxygen electrocatalyst for rechargeable air-cathode. Chemical Engineering Journal, 2021, 411, 128492

[5] Chen Wang, Zhongfang Li, Likai Wang, et al. Facile synthesis of 3D Fe/N codoped mesoporous graphene as efficient bi-functional oxygen electrocatalysts for rechargeable Zn-air batteries. ACS Sustainable Chemistry & Engineering, 2019, 7(16), 13873-13885

[6] Chen Wang, Jiahui Yan, Sixing Chen, et al, High-Valence Metal-Organic Framework Materials Constructed from Metal-Oxo Clusters: Opportunities and Challenges [J] Chempluschem, 2023, 88(3):

e202200462

[7] Chen Wang, Zhongfang Li, Likai Wang, et al. CHAPTER 6 3D GBM-supported Transition Metal Oxide Nanocatalysts and Heteroatom-doped 3D Graphene Electrocatalysts for Potential Application in Fuel Cells. In Graphene-based 3D Macrostructures for Clean Energy and Environmental Applications, The Royal Society of Chemistry: 2021; pp 139-178.

[8] Chen Wang, Zhongfang Li, Likai Wang, et al. Vertical-space-limit synthesis of bi-functional Fe, N codoped two-dimensional multilayers graphene electrocatalysts for Zn-air battery [J] Energy Technology, 2019, 7(6), 1900123