富忠恒

姓名:富忠恒

所在系所:表面科学与技术研究所

职称:特聘副研究员

通信地址:北京市海淀区学院路30号北京科技大学

邮编:100083

办公地点:科技楼206

办公电话

邮箱:fuzhongheng@ustb.edu.cn

个人简介

富忠恒,1992年生,特聘副研究员,硕士生导师。2014年和2020年分别于北京航空航天大学材料科学与工程学院获得工学学士与工学博士学位,2020至2022年在清华大学化学工程系从事博士后研究工作。主持国家外国专家项目、国家自然科学基金青年项目等项目,参与国家重点研发计划、国家自然科学基金面上项目等。以(共同)一作/通讯身份在Chem. Rev.、Adv. Funct. Mater.、Acta Mater.、Corros. Sci.等期刊发表论文26篇,以共同作者身份在PNAS、Sci. Adv.、Adv. Mater.、Adv. Funct. Mater.等期刊发表论文53篇,引用5195次,h因子33,申请/授权专利5项。曾获北京市优秀毕业生,北京航空航天大学优秀论文奖,优秀研究生,优秀学生干部等荣誉。担任《Materials Genome Engineering Advances》、《中国腐蚀与防护学报》青年编委,Nature Communications、Acta Materialia、JACS Au等期刊独立审稿人。北京字节跳动有限公司项目顾问。

研究方向

1. 基于原子尺度计算与人工智能的有机缓蚀剂智能设计
2. 材料腐蚀行为多尺度模拟
3. 材料高通量自主计算、基于大语言模型的科技文献信息抽取技术开发

科研业绩

代表性论文:

1. Z. Fu, N. Wang, D. Legut, C. Si, Q. F. Zhang, S. Du, T. Germann, J. Francisco, R. Zhang, Rational Design of Flexible Two-Dimensional MXenes with Multiple Functionalities, Chem. Rev., 119, 11980–12031 (2019). (IF: 62.1)

2. Z. Fu, Z. Gu, D. Legut, X. Chen, D. Zhang*, R. Zhang*, High‐Throughput Design of 2D Coating Materials for the Corrosion Protection of Copper, Adv. Funct. Mater., 2423901 (2025). (IF: 18.5)

3. X. Guo, X. Zhang, L. Ma, Y. Li, J. Le, Z. Fu*, L. Lu, D. Zhang*, Understanding the adsorption of imidazole corrosion inhibitor at the copper/water interface by ab initio molecular dynamics, Corros. Sci., 236, 112237 (2024). (IF: 8.3)

4. X. Guo, B. Shi, Z. Fu*, G. Yang, Y. Li, L. Wang, L. Lu, L. Ma*, D. Zhang, Atom-scale insight into the adsorption behavior of imidazole corrosion inhibitors at defective copper/water interfaces, Corros. Sci., 112744 (2025). (IF: 8.3)

5. Z. Fu, X. Guo, X. Zhang, D. Legut, D. Zhang*, Towards rational design of organic copper corrosion inhibitors: High-throughput computational evaluation of standard adsorption Gibbs energy, Corros. Sci., 227, 111783 (2024). (IF: 8.3)

6. Z. Fu, X. Zhang, X. Guo, D. Legut, D. Zhang*, Understanding atomic interaction between cuprous oxide film and aggressive chloride solution, Corros. Sci., 227, 111718 (2024). (IF: 8.3)

7. Z. Fu, X. Chen, Q. Zhang, Review on the lithium transport mechanism in solid-state battery materials, WIREs Comput. Mol. Sci., 1621 (2023). (IF: 14.0)

8. Z. Fu, G. Hai, X. Ma, D. Legut, Y. Zheng, X. Chen, Rational design of MXene-based vacancy-confined single-atom catalyst for efficient oxygen evolution reaction, J. Energy Chem., 98, 663-669 (2024). (IF: 14.0)

9. Z. Fu, D. Zhang, Universal machine learning potential accelerates atomistic modeling of materials, J. Energy Chem., 83, 1 (2023). (IF: 14.0)

10. Z. Fu, X. Chen, N. Yao, X. Shen, X. Ma, S. Feng, S. Wang, R. Zhang, L. Zhang, Q. Zhang, The Chemical Origin of Temperature-Dependent Lithium-Ion Concerted Diffusion in Sulfide Solid Electrolyte Li10GeP2S12, J. Energy Chem., 70, 59–66 (2022). (IF: 14.0)

11. Y. Chen#, Z. Fu#, Y. Wu, Y. Xu, Y. Xiao, J. Wang, R. Zhang, C. Jiang, Giant heterogeneous magnetostriction induced by charge accumulation-mediated nanoinclusion formation in dual-phase nanostructured systems, Acta Mater., 213, 116975 (2021). (IF: 9.2)

12. S. Xiang#, Z. Fu#, W. Li, Y. Wei, J. Liu, H. Liu, L. Zhu, R. Zhang, H. Chen, Highly Air-Stable Carbon-Based α-CsPbI3 Perovskite Solar Cells with a Broadened Optical Spectrum, ACS Energy Lett., 3, 1824–1831 (2018). (IF: 23.1)

13. P. Shi, Z. Fu, M. Zhou, X. Chen, N. Yao, L. Hou, C. Zhao, B. Li, J. Huang, X. Zhang, Q. Zhang, Inhibiting intercrystalline reactions of anode with electrolytes for long-cycling lithium batteries, Sci. Adv., 8, eabq3445 (2022) (IF: 14.1)

14. S. Feng, Z. Fu, X. Chen, B. Li, H. Peng, N. Yao, X. Shen, L. Yu, Y. Gao, R. Zhang, Q. Zhang, An Electrocatalytic Model of the Sulfur Reduction Reaction in Lithium–Sulfur Batteries, Angew. Chem., 202211448 (2022) (IF: 16.8)

15. B. Wei, Z. Fu, D. Legut, T. Germann, S. Du, H. Zhang, J. Francisco, and R. Zhang, Rational Design of Highly Stable and Active MXene-Based Bifunctional ORR/OER Double-Atom Catalysts, Adv. Mater., 33, 2102595 (2021). (IF: 32.1)

16. S. Chen, Z. Fu, H. Zhang, D. Legut, T. Germann, Q. Zhang, S. Du, J. Francisco, and R. Zhang, Surface Electrochemical Stability and Strain-Tunable Lithium Storage of Highly Flexible 2D Transition Metal Carbides, Adv. Func. Mater., 28, 1804867 (2018). (IF: 19.9)

17. H. Zhang, Z. Fu, R. Zhang, Q. Zhang, H. Tian, D. Legut, T. Germann, Y. Guo, S. Du, and J. Francisco, Designing Flexible 2D Transition Metal Carbides with Strain-Controllable Lithium Storage, Proc. Natl. Acad. Sci. U.S.A., 114, E11082–E11091 (2017). (IF: 12.8)