Ding Zhang-太原理工大学化学与化工学院

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Ding Zhang Ph.D

Master Supervisor

Subject：

Chemical Engineering

Research：

·Synthesis chemistry and electrochemistry of lithium battery materials; Electrocatalytic chemistry of hydrogen fuel cells

E-mail：zhangding@tyut.edu.cn

Address：Room 403, College of chemistry

Personal profile
Education
Scientific Research

He was born in October 1983. He graduated from Harbin Institute of Technology with a major in Applied Chemistry in 2005; graduated from Harbin Institute of Technology with a major in Inorganic Chemistry in 2007; in 2012, he graduated from Peking University with a major in Applied Chemistry. He started working at Taiyuan University of Technology in 2012, and conducted postdoctoral research at Seoul National University in South Korea in 2015/2016. He focused on the research and development of key materials and battery devices for lithium-ion batteries, as well as the structural design, preparation process, and surface optimization of transition metal layered oxide cathode materials for application requirements, and the development of functional organic electrolytes for high-performance full battery. In recent years, he published over 50 scientific papers, and has obtained two funds from the National Natural Science Foundation of China, as well as two funds provided by Shanxi Province, and several projects provides by some companies.

Course
Applied Electrochemistry

1. Research Interests

Synthesis chemistry and electrochemistry of lithium battery materials; Electrocatalytic chemistry of hydrogen fuel cells

2.Paper

[1] Shi Wen-Jing, Zhang Ding, Meng Xiao-Meng, Bao Chen-Xu, Xu Shou-Dong, Chen Liang, Wang Xiao-Min, Liu Shi-Bin, Wu Yu-Cheng. Low-strain reticular sodium manganese oxide as an ultrastable cathode for sodium-ion batteries. ACS Appl Mater Interfaces, 2020, 12(12): 14174-14184.

[2] Shi Wen-Jing, Zheng Ya-Min, Meng Xiao-Meng, Liu Shi-Bin, Xu Shou-Dong, Chen Liang, Wang Xiao-Min, Zhang Ding*. Designing sodium manganese oxide with 4d-cation Zr doping as a high-rate-performance cathode for sodium-ion batteries. ChemElectroChem, Doi.org/10.1002/celc.202000205.

[3] Shoudong Xu* , Chenxu Bao, Man Yu, Shibin Liu, Liang Chen, Ding Zhang*. Layered P3 type K0.48Ni0.2Co0.2Mn0.6O2 with microspherical and microcubic mixed morphology as a cathode material for

potassium-ion batteries . Materials Letters 270 (2020) 127733.

[4] Lixue Liu, Ding Zhang* , Donghong Duan , Yu Li, Qinbo Yuan, Liang Chen, Shibin Liu. In situ fabrication of 3D self-supporting cobalt phosphate-modified graphite felt electrocatalysts for oxygen evolution reaction in neutral solution. Journal of Electroanalytical Chemistry, 2020, 862:114031.

[5] Wen-Jing Shi, Yan Yong-Wang, Chi Chen, Ma Xiao-Tao, Zhang Ding*, Xu Shou-Dong, Chen Liang, Wang Xiao-Min, Liu Shi-Bin. Fluorine anion doped Na0.44MnO2 with layer-tunnel hybrid structure as advanced cathode for sodium ion batteries. J. Power Sources, 2019, 427: 129-137.

[6] Xiao-min Zhao, Yong-Wang Yan, Xiao-Xia Ren, Liang Chen, Shou-dong Xu, Shi-bin Liu, Xiaomin Wang, and Ding Zhang* . Trimethyl Phosphate for Nonflammable Carbonate‐Based Electrolytes for Safer Room‐Temperature Sodium‐Sulfur Batteries[J]. ChemElectroChem, 2019, 6(4): 1229-1234.

[7] Xiao-min Zhao, Qin Zhu, Shou-dong Xu, Liang Chen, Zhi-jun Zuo, Xiao-min Wang, Shi-bin Liu, Ding Zhang* . Fluoroethylene carbonate as an additive in a carbonates-based electrolyte for enhancing the specifc capacity of room-temperature sodium-sulfur cell[J]. Journal of Electroanalytical Chemistry, 2019, 832:392-398.

[8] Xiaoxia Ren, Shou-Dong Xu, Shibin Liu, Liang Chen, Ding Zhang, Li Qiu. Lath-shaped biomass derived hard carbon as anode materials with super rate capability for sodium-ion batteries. Journal of Electroanalytical Chemistry, 2019, 841, 63-72.

[9] Xu Shou-Dong*, Zhao Yang, Liu Shibin, Ren Xiaoxia, Chen Liang, Shi Wenjing, Wang Xiaomin, Zhang Ding *. Curly hard carbon derived from pistachio shells as high-performance anode materials for sodium-ion batteries. J Mater Sci, 2018, 53(17): 12334-12351.

[10] Zhang Ding *, Wen-jing Shi, Yan Yong-wang, Xu Shou-dong, Chen Liang, Wang Xiao-min, Liu Shi-bin. Fast and scalable synthesis of durable Na0.44MnO2 cathode material via an oxalate precursor method for Na-ion batteries. Electrochim Acta, 2017, 258: 1035-1043.

3.Patent

Some.

4. Projects

Some.

5. Honors

Some.