张鼎，博士，副教授，硕士生导师

地址：湖北武汉东湖新技术开发区光谷一路206号，齐发娱乐官网入口

邮编：430205

Email:zhangding@wit.edu.cn

教育背景

2007/09-2012/01，北京大学，应用化学，博士

2005/09-2007/07，哈尔滨工业大学，无机化学，硕士

2001/09-2005/07，哈尔滨工业大学，应用化学，学士

工作履历

2022/07-至今，武汉工程大学，副教授；

2022/01-2022/06，太原理工大学大学，化学学院，副教授；

2017/12-2021/12，太原理工大学大学，化学与化工学院，副教授；

2015/03-2015/02，韩国首尔国立大学，工学院，博士后。

2012/03-2017/11，太原理工大学大学，化学与化工学院，讲师；

主要科研项目

1.国家自然科学基金面上项目，多元阳离子掺杂构筑高比容量钠离子电池O3型正极材料的结构调控及电化学性能研究（21978193），62万元，主持

2.国家自然科学基金青年基金项目，“基于二氟草酸硼酸钠的钠离子电池非水电解液的电化学性能和电极/电解液界面钝化特性研究”（21506141），25万元，主持，已结题

3.国家自然科学基金项目地方联合基金重大专项，“煤基石墨烯构架复合材料设计、调控对高能密度钠离子电池性能影响，”，U1710256，286万元，参与

4.国家自然科学基金项目地方联合基金重大专项，“树枝状碳纤维-氧化石墨烯三维框架构建调控高能量密度锂硫电池研究，国家自然科学基金项目地方联合基金重大专项”，U1810204，282万元，参与

5.山西省科技重大专项，“纯电动乘用车用高比能量电芯及电池系统研发与产业化”，20181102005，690万元，参与

研究领域

锂离子电池、钠离子电池的关键材料和界面电化学

学术成果

代表性论文：

1. Zhang, Y.H., D. Zhang,L.R. Wu, J. Ma, Q. Yi, Z.X. Wang, X.F. Wang, Z. Wu, C. Zhang, N.F. Hu, S.C.Haw, J.M. Chen, Z.W. Hu, and G.L. Cui, Stabilization of Lattice Oxygen inLi-Rich Mn-Based Oxides via Swing-like Non-Isothermal Sintering. AdvancedEnergy Materials, 2022.

2. Zhao, Z., X. Huang, Y.Shao, S. Xu, L. Chen, L. Shi, Q. Yi, C. Shang, and D. Zhang, Surfacemodification of Na0.44MnO2 via a nonaqueous solution-assisted coating forultra-Stable and High-Rate sodium-ion batteries. Chemical Engineering JournalAdvances, 2022. 10: p. 100292.

3. Jing, E., L. Chen, S.Xu, W. Tian, D. Zhang, N. Wang, Z. Bai, X. Zhou, S. Liu, D. Duan, and X. Qiu,Dual redox catalysis of VN/nitrogen-doped graphene nanocomposites forhigh-performance lithium-sulfur batteries. Journal of Energy Chemistry, 2022.64: p. 574-582.

4. Zheng, Y.M., X.B.Huang, X.M. Meng, S.D. Xu, L. Chen, S.B. Liu, and D. Zhang, Copper andZirconium Codoped O3-Type Sodium Iron and Manganese Oxide as theCobalt/Nickel-Free High-Capacity and Air-Stable Cathode for Sodium-IonBatteries. ACS Appl Mater Interfaces, 2021. 13(38): p. 45528-45537.

5. Ni, Y., J.Q. Qi, B.T.Zhou, L. Zhu, Y.J. Ren, and D. Zhang, Controllable synthesis of multilayeredporous carbon by ice templating with graphene addition for supercapacitors.Journal of Materials Science, 2021. 56(12): p. 7533-7546.

6. Zhang, D., X.M. Meng,Y.M. Zheng, X.M. Wang, S.D. Xu, L. Chen, and S.B. Liu, The critical role oftitanium cation in the enhanced performance of P2-Na0.5Ni0.25Mn0.60Ti0.15O2cathode material for sodium-ion batteries. Phys Chem Chem Phys, 2020. 22(35):p. 19992-19998.

7. Xu, S.D., C.X. Bao, M.Yu, S.B. Liu, L. Chen, and D. Zhang, Layered P3 type K0.48Ni0.2Co0.2Mn0.6O2with microspherical and microcubic mixed morphology as a cathode material forpotassium-ion batteries. Materials Letters, 2020. 270.

8. Shi, W.J., Y.M. Zheng,X.M. Meng, S.B. Liu, S.D. Xu, L. Chen, X.M. Wang, and D. Zhang, DesigningSodium Manganese Oxide with 4 d‐Cation Zr Doping as a High‐Rate‐Performance Cathode for Sodium‐Ion Batteries. ChemElectroChem, 2020. 7(12): p. 2545-2552.

9. Shi, W.J., D. Zhang,X.M. Meng, C.X. Bao, S.D. Xu, L. Chen, X.M. Wang, S.B. Liu, and Y.C. Wu,Low-Strain Reticular Sodium Manganese Oxide as an Ultrastable Cathode forSodium-Ion Batteries. ACS Appl Mater Interfaces, 2020. 12(12): p. 14174-14184.

10. Liu, L.X., D. Zhang, D.H.Duan, Y. Li, Q.B. Yuan, L. Chen, and S.B. Liu, In situ fabrication of 3Dself-supporting cobalt phosphate-modified graphite felt electrocatalysts foroxygen evolution reaction in neutral solution. Journal of ElectroanalyticalChemistry, 2020. 862.

11. Zhao, X.-m., Q. Zhu, S.-d.Xu, L. Chen, Z.-j. Zuo, X.-m. Wang, S.-b. Liu, and D. Zhang, Fluoroethylenecarbonate as an additive in a carbonates-based electrolyte for enhancing thespecific capacity of room-temperature sodium-sulfur cell. Journal ofElectroanalytical Chemistry, 2019. 832: p. 392-398.

12. Zhao, X.-M., Y.-W. Yan,X.-X. Ren, L. Chen, S.-D. Xu, S.-B. Liu, X.-M. Wang, and D. Zhang, TrimethylPhosphate for Nonflammable Carbonate-Based Electrolytes for Safer Room-TemperatureSodium-Sulfur Batteries. ChemElectroChem, 2019. 6(4): p. 1229-1234.

13. Shi, W.-J., Y.-W. Yan, C.Chi, X.-T. Ma, D. Zhang, S.-D. Xu, L. Chen, X.-M. Wang, and S.-B. Liu, Fluorineanion doped Na0.44MnO2 with layer-tunnel hybrid structure as advanced cathodefor sodium ion batteries. Journal of Power Sources, 2019. 427: p. 129-137.

14. Xu, S.-D., Y. Zhao, S. Liu,X. Ren, L. Chen, W. Shi, X. Wang, and D. Zhang, Curly hard carbon derived frompistachio shells as high-performance anode materials for sodium-ion batteries.Journal of Materials Science, 2018. 53(17): p. 12334-12351.

15. Zhang, D., W.-j. Shi, Y.-w.Yan, S.-d. Xu, L. Chen, X.-m. Wang, and S.-b. Liu, Fast and scalable synthesisof durable Na0.44MnO2 cathode material via an oxalate precursor method forNa-ion batteries. Electrochimica Acta, 2017. 258: p. 1035-1043.

16. Kim, H., H. Kim, Z. Ding,M.H. Lee, K. Lim, G. Yoon, and K. Kang, Recent Progress in Electrode Materialsfor Sodium-Ion Batteries. Advanced Energy Materials, 2016. 6(19): p. 1600943.

17. Zhang, D., H. Yan, Z. Zhu,H. Zhang, J. Wang, and Qilu, Electrochemical stability of lithium bis(oxatlato)borate containing solid polymer electrolyte for lithium ion batteries. Journalof Power Sources, 2011. 196(23): p. 10120-10125.

18. Zhang, D., H. Yan, H.Zhang, Z. Zhu, and Qilu, Electrochemical properties of the solid polymerelectrolyte PEO20–LiSO3CF3–Urea1.5. Solid State Ionics, 2011. 199-200: p.32-36.

专利：

国家发明专利若干项

获奖情况

2018年山西省自然科学一等奖，“新型能源转化及储存材料表/界面优化设计”，排名第五。

2018年，山西省“三晋英才”称号。