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长沙理工大学材料科学与工程学院导师教师师资介绍简介-朱晓波湖湘学者

本站小编 Free考研考试/2021-08-22



朱晓波:1991年5月生,博士,湖湘****,湖南省“团队****”核心成员。2011年本科毕业于黑龙江大学化学专业,获得理学学士学位,后师从中国科学技术大学钱逸泰院士开始固体无机化学的研究,并在2014年获得硕士学位,随后获澳大利亚国际全额奖学金资助进入昆士兰大学纳米材料中心攻读博士, 2018年获得博士学位后留任博士后研究员并担任二次电池方向负责人,合作导师为王连洲教授(澳大利亚桂冠****)。长期从事二次电池材料与器件的研究,作为主要负责人参与和主持多项二次电池正极材料的基础以及工业研究项目。
自2014 年至今,申请人共在Adv. Mater.、Adv. Funct. Mater.、Sci. Bull.、Nano Res.等高质量期刊发表学术论文29篇,累计引用近1200次,H因子17。其中以第一作者以及共同通讯身份发表论文11 篇。申请专利3项,已授权专利1项。相关研究工作获得了学术同行和工业合作伙伴的高度认可,受邀担任Adv. Energy Mater.、Sci China Mater.、Electrochim. Acta等期刊审稿人。与欧洲同步辐射、澳大利亚同步辐射、日本国家材料科学研究所等研究机构保持密切合作关系。
研究领域:以材料学、固体化学和电化学为基础,研究二次电池及关键材料的设计、制备和表征,建立材料的合成—结构—性质之间的内在联系,研发低成本高性能二次电池。
1.低成本高比能锰基正极材料:层状以及尖晶石锰基正极材料的结构与组分设计、合成过程研究与控制;
2.电极材料的结构表征与电化学反应机理研究:利用先进的同步辐射衍射与光谱学等手段揭示电极材料的晶体结构、应变梯度、电子结构、化学键等信息,并监测结构参数在电化学反应过程中的变化,从不同维度分析电极材料的反应与失效机制,从而指导材料的设计优化;
3.新型储能器件:通过对电极、电解液的优化与组合,设计新型低成本高性能金属离子二次电池,并研究其在储能系统中的应用。
已发表文章
1. Zhu, X.*; Wang, L.*, Advances in materials for all-climate sodium ion batteries. EcoMat. 2020; 2: e12043.
2. Lin, T.; Schulli, T.; Hu, Y.; Zhu, X.*; Gu, Q.; Luo, B.; Cowie, B.; Wang, L.*, Faster activation and slower capacity/voltage fading: A bifunctional urea treatment on lithium-rich cathode materials. Adv. Funct. Mater. 2020, 30, ** (第一通讯作者,一区IF 16.8).
3. Hu, Y.; Zhu, X.*; Wang, L.*, Two-Dimensional Materials Functionalized Separators for High-Energy-Density Rechargeable Batteries. ChemSusChem. 2020, 13, 1366 (第一通讯作者,一区IF 8.0).
4. Zhu, X.; Schulli, T.; Wang, L., Stabilizing High-voltage Cathode Materials for Next-generation Li-ion Batteries. Chem. Res. Chin. Univ. 2020, 36, 24-32.
5. Zhu, X.; Tang, J.; Huang, H.; Lin, T.; Luo, B.; Wang, L., Hollow structured cathode materials for rechargeable batteries. Sci. Bull. 2020, 65, 6, 496-512 (一区,IF 9.5).
6. Zhu, X; Mochiku, T.; Fujii, H.; Tang, K.; Hu, Y.; Huang, Z.; Luo, B.; Ozawa, K.; Wang, L., A new sodium iron phosphate as stable high-rate cathode material for sodium ion batteries. Nano Res. 2018, 11, 12, 6197-6205 (一区,IF 8.2).
7. Zhu, X; Sun, D.; Luo, B.; Hu, Y.; Wang, L., A stable high-power Na2Ti3O7/LiNi0.5Mn1.5O4 Li-ion battery. Electrochim. Acta. 2018, 284, 30-37. (一区,IF 6.2)
8. Zhu, X.; Lin, T.; Manning, E.; Zhang, Y.; Yu, M.; Zuo, B. Wang, L., Recent advances on Fe- and Mn-based cathode materials for lithium and sodium ion batteries. J. Nanopart. Res. 2018, 20: 160 (IF 2.1).
9. Zhu, X.; Luo, B.; Butburee, T.; Zhu, J.; Han, S.; Wang, L., Hierarchical macro/mesoporous NiO as stable and fast-charging anode materials for lithium-ion batteries. Microporous Mesoporous Mater. 2017, 238, 78-83 (IF 4.6).
10. Zhu, X.; Li, X.; Zhu, Y.; Jin, S.; Wang, Y.; Qian, Y., LiNi0.5Mn1.5O4 nanostructures with two-phase intergrowth as enhanced cathodes for lithium-ion batteries. Electrochim. Acta 2014, 121, 253-257 (一区,IF 6.2).
11. Zhu, X.; Li, X.; Zhu, Y.; Jin, S.; Wang, Y.; Qian, Y., Porous LiNi0.5Mn1.5O4 microspheres with different pore conditions: Preparation and application as cathode materials for lithium-ion batteries. J. Power Sources 2014, 261, 93-100 (一区,IF 8.2).
12. Sun, D.; Zhu, X.; Luo, Zhang, Y.; Tang, Y.; Wang, H., Wang, L., A Binder-Free and Free-Standing Cobalt Sulfide@Carbon Nanotube Cathode Material for Aluminum‐Ion Batteries. Adv. Energy Mater, 2018, **.
13. Zhang, Y.; Hu, Y.; Wang, Z.; Lin, T.; Zhu, X.; Luo, B.; Hu, H.; Xing, W.; Yan, Z.; Wang, L., Lithiation-Induced Vacancy Engineering of Co3O4 with Improved Faradic Reactivity for High-Performance Supercapacitor. Adv. Funct. Mater. 2020, 30 (39), **.
14. Tang, J.; Huang, X.; Lin, T.; Qiu, T.; Huang, H.; Zhu, X.; Gu, Q.; Luo, B.; Wang, L., MXene derived TiS2 nanosheets for high-rate and long-life sodium-ion capacitors. Energy Storage Mater. 2020, 26, 550-559.
15. Huang, X.; Tang, J.; Luo, B.; Knibbe, R.; Lin, T.; Hu, H.; Rana, M.; Hu, Y.; Zhu, X.; Gu, Q., Sandwich-Like Ultrathin TiS2 Nanosheets Confined within N, S Codoped Porous Carbon as an Effective Polysulfide Promoter in Lithium-Sulfur Batteries. Adv. Energy Mater 2019, **.
16. Hu, Y.; Debnath, S.; Hu, H.; Luo, B.; Zhu, X.; Wang, S.; Hankel, M.; Bernhardt, D.; Wang, L., Unlocking the potential of commercial carbon nanofibers as free-standing cathodes for flexible aluminum ion batteries. J. Mater. Chem. A 2019, 7, 15123-15130.
17. Hu, Y.; Ye, D.; Luo, B.; Hu, H.; Zhu, X.; Wang, S.; Li, L.; Peng, S.; Wang, L., New Binder-Free Metal Phosphide-Carbon Felt Composite Anodes for Sodium‐Ion Battery. Adv. Mater. 2018, 30 (2), **.
18. Luo, B.; Hu, Y.; Zhu, X.; Qiu, T.; Zhi, L.; Xiao, M.; Zhang, H.; Zou, M.; Cao, A.; Wang, L., Controllable growth of SnS2 nanostructures on nanocarbon surfaces for lithium-ion and sodium-ion storage with high rate capability. J. Mater. Chem. A 2018, 6 (4), 1462-1472.
19. Hu, Y.; Luo, B.; Ye, D.; Zhu, X.; Lyu, M.; Wang, L., An Innovative Freeze-Dried Reduced Graphene Oxide Supported SnS2 Cathode Active Material for Aluminum-Ion Batteries. Adv. Mater. 2017, 29 (48), **.
20. Wen, Y.; Rufford, T. E.; Hulicova-Jurcakova, D.; Zhu, X.; Wang, L., Structure Control of Nitrogen-Rich Graphene Nanosheets Using Hydrothermal Treatment and Formaldehyde Polymerization for Supercapacitors. ACS Appl. Mater. Interfaces 2016, 8 (28), 18051-18059.
21. Yuan, Z.; Si, L.; Zhu, X., Three-dimensional hard carbon matrix for sodium-ion battery anode with superior-rate performance and ultralong cycle life. J. Mater. Chem. A 2015, 3 (46), 23403-23411.
22. Wang, Y.; Zhu, X.; Li, X.; Wang, L.; Wang, Y.; Hao, Q.; Tang, K., d-Glucopyranose-modified compound of Ruddlesden-Popper phases H2CaTa2O7: characterization and intercalation with Ag. J. Mater. Chem. A 2014, 2 (37), 15590-15597.
23. Tao, S.; Huang, W.-f.; Wu, G.-x.; Zhu, X.; Wang, X.-b.; Zhang, M.; Wang, S.-h.; Chu, W.-s.; Song, L.; Wu, Z.-y., Performance enhancement of Lithium-ion battery with LiFePO4@C/RGO hybrid electrode. Electrochim. Acta 2014, 144, 406-411.
24. Wang, L.; Zhu, Y.; Guo, C.; Zhu, X.; Liang, J.; Qian, Y., Ferric chloride-Graphite Intercalation Compounds as Anode Materials for Li-ion Batteries. ChemSusChem 2014, 7 (1), 87-91.
25. Li, X.; Zhu, X.; Zhu, Y.; Yuan, Z.; Si, L.; Qian, Y., Porous nitrogen-doped carbon vegetable-sponges with enhanced lithium storage performance. Carbon 2014, 69, 515-524.
26. Li, X.; Zhu, X.; Liang, J.; Hou, Z.; Wang, Y.; Lin, N.; Zhu, Y.; Qian, Y., Graphene-Supported NaTi2(PO4)3 as a High Rate Anode Material for Aqueous Sodium Ion Batteries. J. Electrochem. Soc. 2014, 161 (6), A1181-A1187.
27. Fan, L., Zhang, J., Zhu Y., Zhu, X., Liang, J., Wang, L., Qian, Y.; Comparison between SnSb-C and Sn-C composites as anode materials for lithium-ion batteries. Rsc Adv. 2014, 4 (107), 62301-62307
28. Jin S., Zhu, X., Qian, Y.; Copper Oxide Hierarchical Microspheres Grown on Copper Foil and Their Enhanced Performance as Anodes for Li-ion Batteries. Int. J. Electrochem. Sci. 2014, 9, 2859-2866
29. Wang, Y.; Wang, C.; Wang, L.; Hao, Q.; Zhu, X.; Chen, X.; Tang, K., Preparation of interlayer surface tailored protonated double-layered perovskite H2CaTa2O7 with n-alcohols, and their photocatalytic activity. RSC Adv. 2014, 4 (8), 4047-4054.
授权发明专利
张元成,朱晓波,王连洲,于萌萌,左斌,吕志凤;“负极材料及制作方法、负极及锂离子全电池及制作方法” CNB
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联系方式:Email: xbzhu@csust.edu.cn
通讯地址:湖南省长沙市天心区长沙理工大学云塘校区新能源大楼3B-502






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