副教授
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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,金沙检测线路js95

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,我校,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。

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