张弛

　　 　　

一、个人简历

张弛，男，陕西华阴人，1990年12月生，中共党员，工学博士，西北农林科技大学资源环境学院副教授，硕士生导师。研究领域为计算矿物学、环境地球化学。主要采用多尺度计算模拟方法探索矿物/有机质的界面化学反应过程与分子机制，揭示界面反应驱动的元素迁移转化规律和地球化学循环，主要关注金属离子在矿物表面的络合、矿物界面氧化还原过程及电子传递路径、矿物-有机质界面相互作用、流体中离子的配位与形态等。以第一作者或通讯作者身份发表SCI论文二十余篇，其中8篇发表在Geochim. Cosmochim. Acta、Water Res.、Environ. Sci. Technol.等Nature Index期刊上。主持国家级、省部级和企业委托科研项目多项，担任多个SCI期刊的审稿人，获得南京大学优秀博士毕业论文、中国土壤学会科学技术二等奖、陕西省高等学校科学技术研究优秀成果一等奖等荣誉。

二、教育与工作经历

2019.06-至今，西北农林科技大学/资源环境学院，副教授

2017.01 -2017.12，国家公派联合培养博士生，法国SUBATECH国家实验室/放射化学研究所

2013.09-2019.06，南京大学/地球科学与工程学院，硕博连读

2009.09 -2013.06，西北农林科技大学/水利与建筑工程学院，本科

三、教学信息

1. 主讲《土壤污染控制与修复》《土地退化与修复》

2. 出版教材《土地退化修复与重建》，西北农林科技大学出版社，主编

四、主持科研项目

1. 国家自然科学基金，锑在蒙脱石界面络合行为的第一性原理分子动力学模拟研究，2022-2024

2. 企业委托课题，微生物基因组测序、纯菌及菌群转录组代谢分析，2025年

3. 企业委托课题，农膜残留检测及土壤理化性质分析，2025年

4. 企业委托课题，流体中核素离子赋存形态的模拟研究，2024年

5. 企业委托课题，关中地区耕地土壤产能提升研究，2025年

6. 企业委托课题，安康典型富硒地优化利用方法与技术研究，2022年

7. 生态环境部土壤环境管理与污染控制重点实验室开放课题，全氟化合物-天然有机质微观界面互作过程的计算模拟研究，2024年

8. 广东省矿物物理与材料研究开发重点实验室开放课题，黏土矿物对稀土离子吸附富集作用的计算模拟研究，2023年

9. 生态环境部水土污染协同控制与联合修复重点实验室开放课题，重金属锑与锰替代赤铁矿相互作用过程及晶面依赖性机制研究，2024年

10. 中国博士后科学基金，锑在三水铝石界面络合过程的量子分子动力学模拟，2021年

11. 中央高校基本科研业务费专项资金，重金属在土壤氧化物界面的吸附机理研究，2019年

五、研究成果

1.个人主页

https://www.researchgate.net/profile/Chi_Zhang267

https://scholar.google.com/citations?user=8cnOeC0AAAAJ&hl=zh-CN

2. 第一作者/通讯作者论文

（1）Ma H.,Zhang C.*,Zhang Z., Zhou Z.,Xu Y., Xi M., Zhu K., Jia H. (2025)Understanding the structure, distribution, and retention of nanoplastics in montmorillonite nanopore by multi-scale computational simulations.  Water Research , 282, 123638

（2）Zhou Z., Zhang C.*., Ma H., Lu, W., Wang, H., Chen J., Xi, M., Jia H.* (2025) Molecular-scale insights into retention and aggregation of organophosphate esters (OPEs) with clay-organic complexes.  Applied Clay Science , 271, 107795.

（3）Zhang C., Zhou Z.#, Xi M., Ma H., Qin J.*, Jia H.* (2025) Molecular modeling to elucidate the dynamic interaction process and aggregation mechanism between natural organic matters (NOMs) and nanoplastics (NPs).  Eco-Environment & Health , 4(1), 100122.

（4）Ding L., Li F., Zhang Z., Li M., Zhang C.*, Wang R.* (2024) The exploitation of local electric field generated by oxygen vacancies on BiOIO3 nano-antibacterial agents for enhanced photocatalytic sterilization, Surfaces and Interfaces ,54, 105134.

（5）Zhang, Z., Zhang, C.#, Wang N., Hu, Y., Cui, L., Wang, J., Zhu, L., Zhang J., Wang R. (2024) Enhanced Photosensitizer Wettability via Anchoring Competition of Violet Phosphorus Quantum Dots for Breakthroughs in Photodynamic Film Sterilization, Advanced Materials , 2410989

（6）Xi, M., Zhang C.*, Ma H., Zhou Z., Zhu K., Jia H.* (2023) Atomic-scale understanding of Se(IV) surface complexation on gibbsite: Insights from first-principles molecular dynamics.  Chemical Geology .638, 5, 121716.

（7）Zhou Z., Zhang C.*, Xi M., Ma H., Jia H.* (2023) Multi-scale modeling of natural organic matter–heavy metal cationsinteractions: Aggregation and stabilization mechanisms.  Water Research ,238(30), 120007.

（8）Zhang C., Liu L. and Jia H.* (2023) Molecular dynamics study of the exchange processes of heavy metals into montmorillonite: Characterization of hydrated edge surfaces and dynamic exchange mechanism. Appl. Geochem. 150, 105587.

（9）Ma H., Zhang C.*, Chen L., Xi M., Wang Z., Ni Z., Zhu K. and Jia H.* (2023) Understanding surface complexation of antimony on Mg(OH)2: Insights from first-principles molecular dynamics. Chem. Eng. J. 458, 141441.

（10）Zhang C., Liu L, Dai Y., Zhu K., Liu Z., Jia H.* (2022). Molecular dynamics simulations of exchange behavior of radionuclides into montmorillonite: Unraveling the dynamic processes and microscopic structures. Appl. Clay Sci. 226, 106579.

（11）Liu J., Zhang C.#, Zhao S., Wang Z., Zhang X., Zhu K., Liu Z, Dai Y., Jia H*. (2022) Coexistence of MnO2 impedes the degradation of BPA in iron oxide/ascorbic acid systems: disclosing the molecular mechanism. Sep. Purif. Technol.292, 121036.

（12）Zhang, C., Liu, L., Chen, X., Dai, Y. and Jia, H*. (2022) Mechanistic understanding of antimony(V) complexation on montmorillonite surfaces: Insights from first-principles molecular dynamics. Chem. Eng. J. 428, 131157.

（13）Liu, L., Zhang, C.*, Jiang, W., Li, X., Dai, Y. and Jia, H.* (2021) Understanding the sorption behaviors of heavy metal ions in the interlayer and nanopore of montmorillonite: A molecular dynamics study. J. Hazard. Mater. 416, 125976.

（14）Liu, J., Zhang, C.#, Zhao, S., Zhu, K., Liu, J., Wang, Z., Dai, Y. and Jia, H.* (2021) Deciphering the transformation mechanism of substituted polycyclic aromatic hydrocarbons on Al(III)-montmorillonite: An experimental and density functional theory study. Sci. Total Environ. 786, 147493

（15）Ni, Z., Zhang, C.#, Wang, Z., Zhao, S., Fan, X. and Jia, H.* (2021) Performance and potential mechanism of transformation of polycyclic aromatic hydrocarbons (PAHs) on various iron oxides. J. Hazard. Mater. 403, 123993.

（16）Zhang, C., Liu, L. and Jia, H.* (2020) An Atomic-Scale Understanding of the Solution Chemistry of Antimony(V): Insights from First-Principles Molecular Dynamics Simulation. Inorg. Chem. 59(21), 15741-15750.

（17）Zhao, S., Zhang, C.#, Ni, Z., Zhu, K., Liu, J., Dai, Y. and Jia, H.* (2020) Optimized extraction of environmentally persistent free radicals from clays contaminated by polycyclic aromatic hydrocarbons. Environ. Chem. Lett. 18, 3, 949-955.

（18）Zhang, C., Liu, X. *, Lu, X., Meijer, E.J., Wang, R. (2019) Understanding the Heterogeneous Nucleation of Heavy Metal Phyllosilicates on Clay Edges with First-Principles Molecular Dynamics. Environ. Sci. Technol. 53, 13704-13712.

（19）Zhang, C., Liu, X. *, Lu, X., Meijer, E.J., Wang, R. (2019) An atomic-scale understanding of the initial stage of nucleation of heavy metal cations on clay edges. Geochim. Cosmochim. Acta 248, 161-171.

（20）Zhang, C., Liu, X., Tinnacher, R.M., Tournassat, C. (2018) Mechanistic understanding of uranyl ion complexation on montmorillonite edges: A combined first-principles molecular dynamics-surface complexation modeling approach. Environ. Sci. Technol. 52, 8501-8509.

（21）Zhang, C., Liu, X.*, Lu, X. and He, M. (2018) Complexation of heavy metal cations on clay edges at elevated temperatures. Chem. Geol. 479, 36-46.

（22）Zhang, C., Liu, X.*, Lu, X., He, M., Meijer, E.J. and Wang, R. (2017) Surface complexation of heavy metal cations on clay edges: insights from first principles molecular dynamics simulation of Ni(II). Geochim. Cosmochim. Acta 203, 54-68.

（23）Zhang, C., Liu, X.*, Lu, X., Meijer, E.J., Wang, K., He, M. and Wang, R. (2016) Cadmium(II) complexes adsorbed on clay edge surfaces: Insight from first principles molecular dynamics simulation. Clays Clay Miner. 64, 337-347.

3. 参编专著

Lu, X.*, Zhang, C., Cui, X., Zhu, T. and Zong, M. (2020) Nucleation and Growth of Crystal on a Substrate Surface: Structure Matching at the Atomistic Level, Crystallization via Nonclassical Pathways Volume 1: Nucleation, Assembly, Observation & Application. American Chemical Society, pp. 295-310.

六、联系方式

欢迎有意从事土壤化学、土壤修复与改良、环境地球化学研究的学生报考研究生。

通讯地址：陕西省杨凌示范区邰城路3号西北农林科技大学资源环境学院

邮编：712100

电子邮箱: chizhang@nwafu.edu.cn