蒋凯 教授
            联系地址:湖北省武汉市洪山区珞喻路1037号华中科技大学电气大楼A807
            邮编:430074
            电话:027 - 87559524
            Email:kjiang@hust.edu.cn


教育背景

2001年09月 至 2006年06月,武汉大学化学与分子科学学院,理学博士

1995年09月 至 1999年06月,武汉大学化学系,理学学士

工作经历

2012年03月 至 今,华中科技大学电气与电子工程学院,教授、博士生导师

2010年01月 至 2012年02月,麻省理工学院材料系,博士后

2007年02月 至 2009年12月,奥本大学化学系,博士后

主要成就

一直以来,从事新能源材料新型储能技术研究,先后主持国家重点研发计划重大项目、基金委重点项目等,并取得系列重要创新成果,在Nature,Energ. Environ. Sci.,Angew. Chem. Int. Ed.等国际权威学术期刊发表高水平学术论文70余篇,申请/授权发明专利50余项。

2012年开始任华中科技大学教授,入选国家高层次人才计划(青年项目),受聘湖北省特聘专家。先后担任华中科技大学材料科学与工程学院材料物理与化学系主任、材料科学与技术系主任、强电磁工程与新技术国家重点实验室先进电工材料与器件研究中心副主任、电力安全与高效利用教育部工程研究中心主任。

现为中国化工学会储能工程专业委员会副主任委员、中国电机工程学会储能专业委员会委员、中国金属学会熔盐化学与技术分会委员、中国有色金属学会熔盐化学与技术专业委员会委员、《储能科学与技术》编委等。

研究方向

先进能源材料新型电池关键材料,先进材料电化学合成、分析方法与技术

新型电化学储能技术:液态金属电池、钠离子电池、锂硫电池等新型储能器件的应用基础研究

规模储能技术应用:规模储能新技术在电力系统中的应用研究

研究成果

近期专利

  1. 蒋凯,颜杰,王康丽,李威,冯平源,一种共价硫碳化合物及其湿法化学原位合成方法及应用,申请号:CN202010208418.7

  2. 蒋凯,高成炼,王康丽,李浩秒,一种液态金属电池仿真模型的构建方法,申请号:CN202010046999.9

  3. 蒋凯,唐云,周敏,王康丽,李浩秒,一种普鲁士白类似物正极材料、其制备方法和应用,申请号:CN201910249394.7

  4. 蒋凯,唐云,周敏,王康丽,李浩秒,一种铝离子电池正极材料、其制备方法及应用,申请号:CN201910247268.8

  5. 蒋凯,李威,王康丽,程时杰,一种基于水溶液的锌基电池正极材料、其制备方法和应用,申请号:CN201910253473.5

  6. 蒋凯,李威,王康丽,程时杰,一种用于可充水溶液锌离子电池负极材料及其制备与应用,申请号:CN201910056270.7

  7. 蒋凯,王娟,周敏,谷天天,王康丽,李浩秒,一种有机电极材料及其应用以及相应电池器件,申请号:CN201910426990

  8. 蒋凯,李威,王康丽,程时杰,一种宽分解电压的水溶液电解质,申请号:CN201810459165.3

  9. 蒋凯,李威,王康丽,程时杰,一种抑制锌枝晶的材料及其制备方法与应用,申请号:CN201810459230.2

  10. 蒋凯,王如星,王康丽,程时杰,一种钛基氧化物的制备方法与应用,申请号:CN201810601820.5

  11. 蒋凯,郭振林,王康丽,李浩秒,程时杰,一种液态金属电池的变功率加热方法和系统,申请号:CN201810380714.8

  12. 蒋凯,郭振林,王康丽,余丽红,程时杰,一种液态金属电池在储能应用中的温度调控方法,申请号:CN201810231428.5

近期文章

  1. J Han,S Gao,R Wang,K Wang*,M Jiang,J Yan,Q Jin and K Jiang*.Investigation of the Mechanism of Metal-organic Frameworks in Prevent-ing Polysulfides Shuttling - From the Perspective of Composition and Structure.Journal of Materials Chemistry A,2020,8:6661-6669.

  2. J Hou,W Wang*,P Feng,K Wang and K Jiang*.A surface chemistry assistant strategy to high power/energy density and cost-effective cathode for sodium ion battery.Journal of Power Sources,2020,453:227879.

  3. Y Tang,W Li,P Feng,M Zhou*,K Wang,Y Wang,K Zaghib and K Jiang*.High-Performance Manganese Hexacyanoferrate with Cubic Structure as Superior Cathode Material for Sodium-Ion Batteries.Advanced Functional Materials,2020,30(10):1908754.

  4. P Feng,W Wang*J Hou,Q Jin,K Wang and K Jiang*.The mechanism insight into promoting sodium storage of α-CrPO4-type NaV3(PO4)3 anode material for sodium-ion batteries.Journal of Power Sources,2020,463:228194.

  5. Q Jin,W Li,K Wang*,H Li,P Feng,Z Zhang,W Wang and K Jiang*.Tailoring 2D Heteroatom-Doped Carbon Nanosheets with Dominated Pseudocapacitive Behaviors Enabling Fast and High-Performance Sodium Storage.Advanced Functional Materials,2020,30(14).

  6. Q Jin,K Wang*,P Feng,Z Zhang,S Cheng and K Jiang*.Surface-dominated storage of heteroatoms-doping hard carbon for sodium-ion batteries.Energy Storage Materials,2020,27:43-50.

  7. J Yan,W Li,P Feng,R Wang,M Jiang,J Han,S Cao,K Wang* and K Jiang*.Enhanced Na+ pseudocapacitance in a P, S codoped carbon anode arising from the surface modification by sulfur and phosphorus with C–S–P coupling.Journal of Materials Chemistry A,2020,8:422-432.

  8. J Han,S Gao,R Wang,K Wang*,M Jiang,J Yan and K Jiang*.Thermal Modulation of MOF and Its Application in Lithium–Sulfur Batteries.ACS Applied Materials & Interfaces,2019,11(50):46792-46799.

  9. P Feng,W Wang*,K Wang,S Cheng and K Jiang*.A high-performance carbon with sulfur doped between interlayers and its sodium storage mechanism as anode material for sodium ion batteries.Journal of Alloys and Compounds,2019,795:223-234.

  10. Q Jin,W Li,K Wang*,P Feng,H Li,T Gu,M Zhou,W Wang,S Cheng and K Jiang*.Experimental Design and Theoretical Calculation for Sulfur-Doped Carbon Nanofibers as High Performance Sodium-Ion Battery Anode.Journal of Materials Chemistry A,2019,7:10239-10245.

  11. M Jiang,R Wang,K Wang*,S Gao,J Han,J Yan,S Cheng and K Jiang*.Hierarchical porous Fe/N doped carbon nanofibers as host materials for high sulfur loading Li–S batteries.Nanoscale,2019,11(32):15156-15165.

  12. M Jiang,K Wang*,S Gao,R Wang,J Han,J Yan,S Cheng and K Jiang*.Selenium as Extra Binding Site for Sulfur Species in Sulfurized Polyacrylonitrile Cathodes for High Capacity Lithium‐Sulfur Batteries.ChemElectroChem,2019,6(5):1365-1370.

  13. H Li,K Wang*,M Zhou,W Li,H Tao,R Wang,S Cheng and K Jiang*.Facile Tailoring of Multidimensional Nanostructured Sb for Sodium Storage Applications.ACS Nano,2019,13(8):9533-9540.

  14. G Liu,C Xu,H Li,K Jiang* and K Wang*.State of charge and online model parameters co-estimation for liquid metal batteries.Applied Energy,2019,250:677-684.

  15. W Li,K Wang*,S Cheng and K Jiang*.An Ultrastable Presodiated Titanium Disulfde Anode for Aqueous “Rocking-Chair” Zinc Ion Battery.Advanced Energy Materials,2019,9.

  16. H Li,K Wang*,H Zhou,X Guo,S Cheng and K Jiang*.Tellurium-tin based electrodes enabling liquid metal batteries for high specific energy storage applications.Energy Storage Materials,2018,14:267-271.

  17. H Tao,M Zhou*,R Wang,K Wang,S Cheng and K Jiang*.TiS2 as an Advanced Conversion Electrode for Na-ion Batteries with Ultra-High Capacity and Long-Cycle Life.Advanced Science,2018,5(11):1801021.

  18. H Tao,M Zhou*,K Wang,S Cheng and K Jiang*.N/S Co-Doped Carbon Coated Nickel Sulfide as a Cycle-Stable Anode for High Performance Sodium ion Batteries.Journal of Alloys and Compounds,2018,754:199-206.

  19. H Li,K Wang*,S Cheng and K Jiang*.Controllable Electrochemical Synthesis of Copper Sulfides as Sodium-Ion Battery Anodes with Superior Rate Capability and Ultralong Cycle Life.ACS Appl. Mater. Interfaces.2018,10(9):8016-8025.

  20. P Feng,W Wang*,J Hou,K Wang,S Cheng and K Jiang*.A 3D coral-like structured NaVPO4F/C constructed by a novel synthesis route as high-performance cathode material for sodium-ion battery.Chemical Engineering Journal,2018,353(1):25-33.

  21. M Zhou,H Tao,K Wang*,S Cheng and K Jiang*.Nano-embedded microstructured FeS2@C as a high capacity and cycling-stable Na-storage anode in an optimized ether-based electrolyte.Journal of Materials Chemistry A,2018,47.

  22. Z Guo,C Xu,W Li,F Zhu,H Li,K Wang*,S Cheng and K Jiang*.Numerical study on the thermal management system of a liquid metal battery module.Journal of Power Sources,2018,392.

  23. W Li,K Wang*,S Cheng and K Jiang*.Self-Polymerized Disordered Carbon Enabling High Sodium Storage Performance through Expanded Interlayer Spacing by Bound Sulfur Atoms.ChemElectroChem,2018,5(21).

  24. W Li,K Wang*,S Cheng and K Jiang*.A Long-life aqueous Zn-ion battery based on Na3V2(PO4)2F3 cathode.Energy Storage Materials,2018,15:14–21.

  25. W Li,K Wang*,M Zhou,H Zhan,S Cheng and K Jiang*.Advanced Low-Cost, High-Voltage, Long-Life Aqueous Hybrid Sodium/Zinc Batteries Enabled by a Dendrite-Free Zinc Anode and Concentrated Electrolyte.ACS Appl. Mater. Interfaces,2018,10:22059-22066.

  26. R Wang,K Wang*,S Gao,M Jiang,J Han,M Zhou,S Cheng and K Jiang*.Electrocatalysis of polysulfide conversion by conductive RuO2 nano dots for lithium–sulfur batteries.Nanoscale,2018,10:16730–16737.