2022.9-今 郑州大学,化学工程与技术博士后流动站 (合作导师:王景涛教授)
2021.10-今 郑州大学,讲师
2017.09-2021.07 中南大学,化学工程与技术,博士
主要研究方向为能源材料和应用电化学的基础研究,以及全固态锂电池的设 计及其应用基础研究。截至目前在 Journal of Power Sources、Electrochimica Acta、 Applied Surface Science 等期刊发表 SCI 论文 10 余篇。申请中国发明专利 2 项。 Electrochimica Acta、Applied Surface Science、Journal of Alloys and Compounds 等 多种期刊审稿人。
联系方式:dangsw@zzu.edu.cn
通讯地址:郑州市高新区科学大道 100 号(邮编 450001)
1. Dang W, Wang W, Tang XC*, et al. One-step hydrothermal synthesis of 2D WO3 nanoplates@grapheme nanocomposite with superior anode performance for lithium ion battery. Electrochimica Acta, 2019, 313: 99-108.
2. Dang W, Tang XC*, Zhang Y, et al. ZnNi-MnCo2O4@CNT porous double heterojunction cage-like structure with three-dimensional network for superior lithiumion batteries and capacitors. Electrochimica Acta, 2022, 401: 139502.
3. Dang W, Wang F, Ding Y*, et al. Synthesis and electrochemical properties of ZnMn2O4 microspheres for lithium-ion battery application. Journal of Alloys and Compounds, 2017, 690: 72-79.
4. Dang W, Tang XC*, Wang W, et al. Mico-nano NiO-MnCo2O4 heterostructure with optimal interfacial electronic environment for high performance and enhanced lithium storage kinetics. Dalton Transactions, 2020, 49: 10994-11004.
5. Dang W, Feng C, Tang XC*, et al. Optimized pseudocapacitance of CoMn2O4@MoO3 nano-microspheres for advanced lithium storage properties. Journal of Materials Science, 2020, 56: 649-663.
6. Gao G, Dang W, Feng C*, et al. Synthesis and electrochemical properties of MnWO4@Ccomposites for lithium-ion. Journal of Materials Science-Materials In Electronics, 2018, 29: 12804-12812.
7. Li X, Tang XC, Dang W*, et al. Optimize the surface of Li-rich cathode materials with lithium phosphate and polyaniline to improve the electrochemical performance. Ionics, 2021, 27(11): 4649-4661.
8. Wu L, Dang W, Tang XC*, et al. Improvement of electrochemical reversibility of the Ni-Rich cathode material by gallium doping. Journal of Power Sources, 2020, 445: 227-337.
9. Wu LP, Dang W, Tang XC*, et al. Studies on electrochemical reversibility of lithium tungstate coated Ni-rich LiNi0.8Co0.1Mn0.1O2 cathode material under high cut-off voltage cycling. Applied Surface Science, 2019, 484: 21-32.
10. Wang Y, Dang W, Tang XC*, et al. The design of scorodite@FeOOH core-shell materials and its stability treatment for arsenide. Applied Surface Science, 2019, 496: 143719.
11. Wang Y, Dang W, Tang XC*, et al. Mechanism analysis of the synthesis and growth process of large spindle-shaped scorodite as arsenic immobilizationmaterials. Materials Letters, 2019, 254: 371-374.
12. Huang J, Dang W, Tang XC*, et al. Enhanced electrochemical performance of LiNi0.8CO0.1Mn0.1O2 by surface modification with lithium-active MoO3. Journal of Electroanalytical Chemistry, 2018, 823: 359-367.
13. Jin Y; Dang W, Tang XC*, et al. High-tap density LiFePO4 microsphere developed by combined computational and experimental approaches. CrystEngComm, 2018, 20: 6695-6703.