正高职称教师
 

刘瑞平-教授

发布日期:2019/09/02 11:27:01


刘瑞平

男,1983.04

博士、教授、博士生导师

材料科学与工程系副主任、党支部书记

【联系方式】

办公地址:中国矿业大学(北京)环保楼105

通讯地址:北京市海淀区学院路丁11号中国矿业大学(北京)材料科学与工程系

邮编:100083

电话/传真:010-62339175

电子邮件:lrp@cumtb.edu.cn

教育背景

· 2001.09 – 2005.07,中国矿业大学(北京)材料科学与工程系,学士学位

· 2005 .09– 2011.12,中国矿业大学(北京)材料科学与工程系,工学博士

工作履历

· 2012.01 – 2014.03,清华大学材料学院,博士后

· 2014.04 – 2014.06,中国矿业大学(北京)材料科学与工程系,讲师

· 2014.07 – 2019.06,中国矿业大学(北京)材料科学与工程系,副教授

· 2019.07 - 今,中国矿业大学(北京)材料科学与工程系,教授

· 2016.10 – 2017.10,美国Georgia Institute of Technology,访问学者

研究领域

· 高比能二次电池关键材料与器件

· 纳米多孔材料

【主要科研项目】

1. 基于水处理的低成本高性能陶瓷超滤膜设计及制备关键技术,国家自然科学基金青年基金项目

2. 中空结构金属氧化物/CNTs/Si复合微球锂离子电池负极材料的调控制备及容量衰减机制研究,北京市科技新星

3. 固态金属锂电池用互穿网络聚合物复合固态电解质的合成与性能调控,北京市自然科学基金-海淀区原始创新联合基金

4. 锂离子电池SnO2空心复合微球负极材料的设计合成及电化学性能调控,北京市自然科学基金

5. 北京门头沟叶蜡石矿产资源综合利用与制品开发,北京市优秀人才项目-青年骨干计划

6. 锂硫电池关键材料的设计、可控制备与表征,北京市优秀人才项目-青年拔尖人才

7. 多孔陶瓷的结构设计、制备技术及多功能化研究,中央高校基本科研业务费项目

8. 高性能锂硫电池正极材料的调控合成与性能研究,校越崎青年学者计划项目

9. 锂硫电池硫正极材料的设计、制备及性能研究,清华大学先进材料教育部重点实验室开放课题

学术兼职

· 中国材料研究学会超硬材料及制品专业委员会委员

· 中国机械工程学会工程陶瓷专业委员会理事

· 国际电化学能源科学协会(IAOEES)会员

· Journal of Advanced ceramics 编委

· Chinese Chemical Letters 青年编委

· Rare metal 青年编委

· J Mater. Chem. A, Chemsuschem, Chemical Engineering Journal, Energy Storage Materials, ACS Applied Materials & Interfaces, Nanoscale, Electrochimica Acta, J Energy Chem, International Journal of Energy Research, J Eur. Ceram. Soc, J. Alloy Compd, Cream. Inter, Mater lett, Journal of Applied Ceramic Technology, Rare metals, 硅酸盐学报等杂志审稿人

奖励与荣誉

· 2012,教育部科技进步二等奖(排名第五)

· 2015,入选北京市优秀人才青年骨干计划

· 2016,教育部科技进步二等奖(排名第十一)

· 2016,入选北京市科技新星计划

· 2017,入选学校越崎青年学者计划

· 2018,入选北京市优秀人才青年拔尖人才

· 2019,教育部科技进步一等奖(排名第四)

· 2020,中国矿业大学(北京)优秀共产党员

学术成果

【代表性论文】

1. Shiqiang Zhao, Christopher D. Sewell, Ruiping Liu, Songru Jia, Zewei Wang, Yanjie He, Kunjie Yuan, Huile Jin, Shun Wang,* Xueqin Liu,* and Zhiqun Lin*. SnO2 as Advanced Anode of Alkali-Ion Batteries: Inhibiting Sn Coarsening by Crafting Robust Physical Barriers, Void Boundaries, and Heterophase Interfaces for Superior Electrochemical Reaction Reversibility. Advanced Energy Materials, 2020, 10(6): 201902657.

2. Xiangliang Wang, Gaoran Li, Minjie Li, Ruiping Liu, Haibo Li, Tengyu Li, Mingzhu Sun, Yirui Deng, Ming Feng, Zhongwei Chen. Reinforced polysulfide barrier by g-C3N4/CNT composite towards superior lithium-sulfur batteries J Energy Chemistry, 2021(53): 234-240.

3. Qinghuiqiang Xiao, Gaoran Li, Minjie Li, Ruiping Liu, Haibo Li, Pengfei Ren, Yue Dong, Ming Feng, Zhongwei Chen. Biomass-derived nitrogen-doped hierarchical porous carbon as efficient sulfur host for lithium–sulfur batteries. J Energy Chemistry, 2020 (44): 61–67.

4. Xinshuang Chang, Hang Liu, Hang Yang, Jie Di, Wenhao Tang, Huadong Fu **, Mingyang Li, Ruiping Liu*. Co-guiding the dendrite-free plating of lithium on lithiophilic ZnO and fluoride modified 3D porous copper for stable Li metal anode. J Materiomics, 2020(6): 54-61.

5. Wenli Deng, Fuming Deng, Cen Hao, Xuefeng Yang, Ruiping Liu, Xiandong Ma, Xuehua He, Hao Wang. Self-bonding mechanism of pure polycrystalline cubic boron nitride under high pressure and temperature. Int J Refractory Metals & Hard Materials, 2020 (86): 105061.

6. Wenli Deng, Fuming Deng, Ruiping Liu*, Xiandong Ma. Granularity-induced plastic deformation mechanism of pure polycrystalline cubic boron nitride. Ceram. Inter, 2020, 46(14): 21932-21938.

7. Haoyu Fan, Chenhui Yang, Xiaodong Wang, Lu Liu, Zirui Wu, Jiangbin Luo, Ruiping Liu. UV-curable PVdF-HFP-based gel electrolytes with semi-interpenetrating polymer network for dendrite-free Lithium metal batteries. J Electroanal Chem, 2020(871): 114308.

8. Yuming Chen, Wenhao Tang, Jingru Ma, Xiangliang Wang, Yufen Wang*Pengfei Ren, Ruiping Liu*. Nickel decorated TiO2 nanotube arrays as a self-supporting cathode for lithium sulfur batteries. Front. Mater. Sci, 2020(3): 266-274.

9. Ruiping Liu*, Fei Guo, Xiaofan Zhang, et al. Novel “Bird-Nest” Structured Co3O4/Acidified Multiwall Carbon Nanotube (ACNT) Hosting Materials for Lithium−Sulfur Batteries, ACS Appl. Energy Mater, 2019, 2(2): 1348-1356.

10. Jin-Lei Qin, Bo-Quan Li, Jia-Qi Huang*, Long Kong, Xiang Chen, Hong-Jie Peng, Jin Xie, Ruiping Liu*, Qiang Zhang. Graphene-based Fe-coordinated framework porphyrin as an interlayer for lithium–sulfur batteries, Mater. Chem. Front., 2019(3): 615-619.

11. Jiangbin Luo, Yue Dong, Huiqiang Xiaoqin, Hang Liu, Xianfa Rao, Shengwen Zhong, Ruiping Liu*. Hierarchical N/P-Co-Doped Porous Carbon as Host Materials for High-Performance Lithium Sulfur Battery, J Electrochem Soc, 2019, 166 (6): A880-A885.

12. R. Liu*, Zirui Wu, Peng He, Haoyu Fan, et al. A self-standing, UV-cured semi-interpenetrating polymer network reinforced composite gel electrolytes for dendrite-suppressing lithium ion batteries, J Materiomics, 2019(5): 185-194.

13. Ruiping Liu*, Ning Zhang, Xinyu Wang, Chenhui Yang, Hui Cheng, Hanqing Zhao. SnO2 nanoparticles anchored on graphene as advanced anode materials for high performance lithium ion batteries. Front. Mater. Sci, 2019 (2): 186–192.

14. Ziyu Zhao, Gaoran Li, Zhao Wang, Ming Feng**, Mingzhu Sun, Xiangxin Xue, Ruiping Liu , Hongsheng Jia, Zizhun Wang, Wei Zhang, Haibo Li***, Zhongwei Chen*. Black BaTiO3 as multifunctional sulfur immobilizer for superior lithium sulfur batteries. J Power Sources, 2019 (434): 226729.

15. H. Wang*, R. Liu*, Y. Li, et al., Durable and Efficient Hollow Porous Oxide Spinel Microspheres for Oxygen Reduction, Joule, 2018(2): 337-348.

16. Jin-Lei Qin, Hong-Jie Peng, Jia-Qi Huang,* Xue-Qiang Zhang, Long Kong, Jin Xie, Meng Zhao, Ruiping Liu*, Huiyou Zhao, and Qiang Zhang*. Solvent-Engineered Scalable Production of Polysulfide-Blocking Shields to Enhance Practical Lithium–Sulfur Batteries. Small Methods, 2018, 201800100.

17. Ruiping Liu,* Chao Shen, Yue Dong, Jinlei Qin, Qi Wang, James Iocozzia, Shiqiang Zhao, Kunjie Yuan, Cuiping Han, Baohua Li and Zhiqun Lin*. Sandwich-like CNTs/Si/C nanotubes as high performance anode materials for lithium-ion batteries. J Mater. Chem A., 2018(6): 14797–14804.

18. Ruiping Liu*, Chao Zhang, Qi Wang, Chao Shen, Yufen Wang, Yue Dong, Ning Zhang, Miaomiao Wu. Facile synthesis of a-Fe2O3@C hollow spheres as ultra-long cycle performance anode materials for lithium ion battery. J Alloy. Compd, 2018, 742: 490-496.

19. Ruiping Liu*, Chao Shen, Chao Zhang, James Iocozzia, Qi Wang, Shiqiang Zhao, Kunjie Yuan, and Zhiqun Lin*. Hierarchical bicomponent TiO2 hollow spheres as a new high-capacity anode material for lithium-ion batteries. J Mater Sci, 2018 (53): 8499–8509.

20. Ruiping Liu*, Peng He, Zirui Wu, Fei Guo, Bing Huang, Qi wang, Zeya Huang, Chang-an Wang, Yutao Li. PEO/Hollow Mesoporous Polymer Spheres Composites as Electrolyte for All Solid State Lithium Ion Battery. J Electroanal Chem, 2018(822): 105-111.

21. Ruiping Liu*, Chao Zhang, Xiaofan Zhang, et al. Construction of yolk–shell Fe3O4@C nanocubes for highly stable and efficient lithium-ion storage. Front. Mater. Sci, 2018, 12(4): 361–367.

22. Wen-Li D, Fu-Ming D, Rui-Ping L*, et al. Interfacial bonding mechanism of high-pressure sintered Al-Ti-cBN composites. Diamond & Related Materials, 2019(91): 29-33.

23. R. Liu*, W. Su, C. Shen, J. Iocozzia, et al. Hydrothermal synthesis of hollow SnO2 spheres with excellent electrochemical performance for anodes in lithium ion batteries. Mater. Res. Bull, 2017(96): 443-448.

24. R. Liu*, W. Su, P. He, et al. Synthesis of SnO2/Sn hybrid hollow spheres as high-performance anode materials for lithium ion battery. J Alloy. Compd, 2016, 688: 908-913.

25. R. Liu*, F. Ren, J. Yang, et al. One-step synthesis of hierarchically porous hybrid TiO2 hollow spheres with high photocatalytic activity. Front. Mater. Sci, 2016, 10(1): 15-22.

26. R. Liu*, T. Xu, C. Wang. A review of fabrication strategies and applications of porous ceramics prepared by freeze-casting method. Ceram. Inter, 2016, 42(2): 2907-2925.

27. L. Zhang, J. Zhang, R. Liu. Organic–inorganic hybrid sol–gel coatings for corrosion protection of aluminum alloys. Surf. Innov, 2015, 4(2): 51-69.

28. H. Fu, F. Ren, W. Su, R.Liu*. A general synthesis strategy for hierarchical porous metal oxide hollow spheres. J. Nanomater, 2015, 2015: 3.

29. R. Liu*, F. Ren, W. Su, et al. Synthesis of TiO2 hollow spheres with tunable pore structure and enhanced photocatalytic activity. Ceram. Inter, 2015, 41(10): 14615-14620.

30. R. Liu*, F. Zhang, et al. Impregnation of porous mullite with Na2SO4 phase change material for thermal energy storage. Sol. Energ. Mat. Sol. C, 2015(134): 268-274.

31. R. Liu, C. Wang. Synthesis of hollow mesoporous silica spheres with radially aligned mesochannels and tunable textural properties. Ceram. Inter, 2015(41): 1101-1106.

32. R. Liu, Y. Li, C. Wang, S. Tie. Fabrication of porous alumina–zirconia ceramics by gel-casting and infiltration methods. Mater. Design, 2014 (63): 1–5.

33. R. Liu, C. Wang. Synthesis of aluminum-doped mesoporous zirconia with improved thermal stability. Micropor. Mesopor. Mater, 2014(186): 1-6.

34. R. Liu, J. Yuan, C. Wang. A novel way to fabricate tubular porous mullite membrane supports by TBA-based freezing casting method. J. Eur. Ceram Soc, 2013 (33): 3249-3256.

35. R. Liu, C. Wang. Effects of mono-dispersed PMMA micro-balls as pore-forming agent on the properties of porous YSZ ceramics. J. Eur. Ceram Soc, 2013 (33): 1859–1865.

主讲课程

· 材料科学基础(本科生专业基础课)

· 复合材料(本科生/研究生选修课)

· 新能源材料(本科生/研究生选修课)

【招生信息】 欢迎有材料、物理、化学背景的同学来本课题组攻读学位。