描述
描述
教育背景
个人简介
温州大学碳中和技术创新研究院院长
温州大学化学与材料工程学院 教授
温州市钠离子电池重点实验室 主任
Carbon Neutralization 主编
Battery Energy 副主编
2018-2023年全球高被引科学家
侴术雷

2007-2010      博士      澳大利亚伍伦贡大学,材料工程
2004-2007      硕士      南开大学,无机化学
1999-2003      学士      南开大学,材料化学
工作经历
2021.9-至今               温州大学碳中和技术创新研究院     院长
                                  温州市钠离子电池重点实验室        主任
2021.7-至今               温州大学化学与材料工程学院        教授
2020.1-2021.6           澳大利亚伍伦贡大学                      教授
2018.1-2019.12         澳大利亚伍伦贡大学                      副教授
2015.1-2017.12         澳大利亚伍伦贡大学                      高级研究员
2014.2-2014.12         澳大利亚伍伦贡大学                      研究员
2011.2-2014.2           澳大利亚伍伦贡大学                      APD
2010.6-2011.2           澳大利亚伍伦贡大学                      助理研究员
      主要从事储能电池相关的关键材料及电池工艺研究,十余年来,在Science, Nat. Chem.等国际高水平学术期刊发表文章420余篇,高被引论文34篇,被引用31000余次,h因子102。2018年-2023年连续六年入选全世界高被引学者,是钠离子电池领域业界公认的青年顶尖人才。2021年入选教育部“长江学者奖励计划”讲席教授、浙江省海外高层次人才引才计划;2022年,入选浙江省“鲲鹏行动”计划。累计申请国内外专利70余项,已授权中国发明专利20余项。曾作为核心完成人参与导师窦世学院士主持的澳大利亚有史以来最大的钠离子电池项目—澳大利亚可再生能源局的钠离子电池示范项目。在钠离子电池普鲁士蓝正极、生物质硬碳负极以及阻燃电解液的创新性研发,已成为世界三大主流技术路线之一。
重要学术会议报告

2023年7月,第十届海峡两岸纳米材料论坛暨纳米材料国际会议,银川((分会场报告)

2023年3月,第六届电化学能源技术前沿论坛,重庆(大会报告)

2023年3月,中国化学会第十六届固态化学与无机合成学术会议,北京(分会场报告)

2023年3月,中国国际钠离子电池前沿技术与产业发展论坛,温州(大会报告)

2022年8月,第三届全国钒钛资源与储能科技大会•暨Wiley旗下《Battery Energy》期刊创刊国际会议,苏州(分会场报告)

2022年7月,第三届国际电化学能源系统大会,银川(大会报告)

2022年7月,2022 Exploration-energy 国际云论坛,(中国)线上直播(大会报告)

2021年11月第五届新型电池电解质/隔膜材料技术国际论坛,苏州(分会场报告)

2020年1月International Symposium on Superwettability+,新加坡 (邀请报告)

2019年11月Wiley 2019国际能源存储与转化功能材料大会,温州,(分会主席)

2019年11月绿色化工能源国际研讨会,郑州,2019(邀请报告)

2019年9月第二届中新澳先进材料国际高端研讨会,天津,(邀请报告)

2019年8月第一届全国钠电池研讨会,溧阳(大会邀请报告)

2019年5月第四届中国能源材料化学研讨会,大连(分会主席,邀请报告)

2019年4月《自然》新材料和器件电子结构与性能大会,成都(邀请报告)

2018年10月中国新能源材料与器件第二届学术会议,长沙(主旨报告)

2018年9月功能材料国际会议,鞍山(分会主席,邀请报告)

2018年8月第三届中国(国际)能源材料化学研讨会,北京(组委会委员,邀请报告)

2018年7月International Symposium on Advanced Materials & Sustainable Technologies,布里斯班,澳大利亚(组委会委员,邀请报告)

2018年1月Nature Conference Materials Electrochemistry: Fundamentals & Applications,深圳(分会主席,邀请报告)

2017年10月国际能源存储与转化功能材料论坛, 上海(组织委员会)

2016年8月以大会主席身份组织召开2016年下一代电池研讨大会

2016年9月Chemeca 2016, 阿德莱德, 澳大利亚(主旨报告)

2016年5月十二届中国国际电池技术展览会(CIBF),深圳(科技顾问委员,邀请报告)


主编,2021年-至今,《Carbon Neutralization》, Wiley出版社

副主编,2021年-至今,《Battery Energy》, Wiley出版社

编委,2019年-至今,《Cell Reports Physical Sciences》, Elsevier出版社Cell子刊

编委,2018年-至今,《Carbon Energy》, Wiley出版社

编委,2020年-至今,《eScience》,科爱出版社。

客座编辑,2017年,《Advanced Materials》, Aim for Future电池特刊

客座编辑,2017年,《Advanced Energy Materials》,Next Generation Battery特刊

客座编辑,2018年,《Small》, Nanomaterials Innovation特刊

客座编辑,2019年,《Small Methods》, Single Atom特刊

客座编辑,2020年,《Small》, ISEM 25th 周年特刊。


重要学术组织兼职

2023年材料和化学交叉领域Clarivate Analytics (ESI)世界高被引学者

2022年材料和化学交叉领域Clarivate Analytics (ESI)世界高被引学者

2021年教育部“长江学者奖励计划”讲席教授

2021年材料和化学交叉领域Clarivate Analytics (ESI)世界高被引学者

2020年材料和化学交叉领域Clarivate Analytics (ESI)世界高被引学者

2019年材料和化学交叉领域Clarivate Analytics (ESI)世界高被引学者

2018年材料和化学交叉领域Clarivate Analytics (ESI)世界高被引学者

2015年度澳大利亚科学委员会国际交流奖

2014年度澳大利亚年轻科学家奖-工程技术类


获得重要奖项
代表论著

ORCID: Shulei Chou (0000-0003-1155-6082) (orcid.org)

Scopus: https://www-scopus-com-443.webvpn.wzu.edu.cn/authid/detail.uri?authorId=25030039100#

Research ID: Shulei Chou | Publons

1.W.L. Lai, Y.X. Wang, Y. Wang, M.H. Wu, J.Z. Wang, H.K. Liu, S.L. Chou*, J. Chen, S. X. Dou Morphology tuning of inorganic nanomaterials grown by precipitation through control of electrolytic dissociation and supersaturation", Nature Chemistry, 2019. 11(8): p. 695-701.

2.Y. Shen*, W. Zhang, S.L. Chou*, S. X. Dou, Comment on “Cycling Li-O2 batteries via LiOH formation and decomposition” Science, 2016, 352(6286), 667. (Cited times: 12) (IF: 34.661)

3.W.L Wang, Y. Gang, Z. Hu, Z.C. Yan, W.J. Li, Y.C. Li, Q.F. Gu*, Z.X. Wang, S. L. Chou*, H.K. Liu, S.X. Dou, Reversible structural evolution of sodium-rich rhombohedral Prussian blue for sodium-ion batteries, Nature Communications, 2020, 11, 980

4.Z. Yan, J. Xiao, W. Lai, L. Wang, F. Gebert, Y. Wang,* Q. Gu, H. Liu,* S. L. Chou,* H. Liu, and S. Dou, Nickel sulfide nanocrystals on nitrogen-doped porous carbon nanotubes with high-efficiency electrocatalysis for room-temperature sodium-sulfur batteries, Nature Communications, 2019. 10: p. 8. (IF: 11.47)

5.Y.X. Wang, J.P. Yang, S.L. Chou*, H. K. Liu, W.X. Zhang, D.Y. Zhao*, S. X. Dou, “Uniform yolk-shell FeS@C nanospheres for superior sodium/iron sulphide batteries with ultrahigh energy density” Nature Communications, 2015 6, 8689. (IF: 11.47)

6. B.W. Zhang, T. Sheng, Y.D. Liu, Y.X. Wang, L. Zhang, W.H. Lai, L. Wang, J. Yang, Q.F. Gu, S. L. Chou*, H.K. Liu, and S.X. Dou, Atomic cobalt as an efficient electrocatalyst in sulfur cathodes for superior room-temperature sodium-sulfur batteries. Nature Communications, 2018, 9, 4082. (IF: 11.47)

7.M. Chen, W. Hua, J. Xiao, D. Cortie, W. Chen, E. Wang, Z. Hu, Q. Gu, X. Wang, S. Indris,  S.L. Chou*, S. Dou, NASICON-type air-stable and all-climate cathode for sodium-ion batteries with low cost and high-power density, Nature Communications, 2019, 10, 1480. (IF: 11.47)

8.Y. X. Wang, J. Yang, W. Lai, S.L. Chou*, Q. F. Gu, H. K. Liu, D. Zhao, S. X. Dou, Achieving High-Performance Room-Temperature Sodium-Sulfur Batteries With S@Interconnected Mesoporous Carbon Hollow Nanospheres. J. Am. Chem. Soc. 2016, 138 (51), 16576-16579. (IF: 13.038)

9.S.J. Peng, Feng Gong, L.L. Li*, D.S Yu, D. Ji, T.R. Zhang, Z. Hu, Z.Q. Zhang, , S. L. Chou*, Y.H. Du,  S. Ramakrishna, Necklace-Like Multi-Shelled Hollow Spinel Oxides with Oxygen Vacancies for Efficient Water Electrolysis, J. Am. Chem. Soc., 2018, 140(42), pp. 13644-13653

10.L. Li, L.J. Liu, Z. Hu, Y. Lu, Q.N. Liu, S. Jin, Q. Zhang, S. Zhao, and S. L. Chou*, "Understanding High-Rate K+-Solvent Co-Intercalation in Natural Graphite for Potassium-Ion Batteries". Angew. Chem.-Int. Edit., 2020. 59(31): p. 12917-12924.

11.Y.F. Zhu, Y. Xiao, W.B. Hua, S. Indris, S.X. Dou, Y.G. Guo, and S. L. Chou*, "Manipulating Layered P2@P3 Integrated Spinel Structure Evolution for High-Performance Sodium-Ion Batteries". Angew. Chem.-Int. Edit., 2020. 59(24): p. 9299-9304.

12.M.Z. Chen, J. Xiao, W.B. Hua, Z. Hu, W.L. Wang, Q.F. Gu, Y.X. Tang, S. L. Chou*, H.K. Liu, and S.X. Dou, "A Cation and Anion Dual Doping Strategy for the Elevation of Titanium Redox Potential for High-Power Sodium-Ion Batteries". Angew. Chem.-Int. Edit., 2020. 59(29): p. 12076-12083.

13.Q.N. Liu, Z. Hu, Y.R. Liang, L. Li, C. Zou, H.L. Jin, S. Wang, H.M. Lu, Q.F. Gu, S. L. Chou*, Y. Liu, and S.X. Dou, "Facile Synthesis of Hierarchical Hollow CoP@C Composites with Superior Performance for Sodium and Potassium Storage". Angew. Chem.-Int. Edit., 2020. 59(13): p. 5159-5164.

14.M.Z. Chen, W.B. Hua, J. Xiao, D. Cortie, X.D. Guo, E.H. Wang, Q.F. Gu, Z. Hu, S. Indris, X.L. Wang, S. L. Chou*, and S.X. Dou, "Development and Investigation of a NASICON-Type High-Voltage Cathode Material for High-Power Sodium-Ion Batteries". Angew. Chem.-Int. Edit., 2020. 59(6): p. 2449-2456.

15.Y. Wang, W. Lai, Y. Wang, Y. Cao, X. Ai, S. L. Chou*, H. Yang, and Y. Cao.* Sulfur‐based electrodes via multi‐electron reactions for room‐temperature sodium‐ion storage. Angew. Chem. Int. Ed. 2019, 58, 2-16

16.Z. Yan, L. Tang, Y. Huang, W. Hua, Y. Wang, R.  Liu, Q.F. Gu, S. Indris, S. L. Chou*, Y. H. Huang, M.H. Wu, S.X. Dou, A Hydrostable Cathode Material Based on the Layered P2@P3 Composite that Shows Redox Behavior for Copper in High-Rate and Long-Cycling Sodium-Ion Batteries. Angew. Chem. Int. Ed. 2019, 58, 1412-1416.

17.W.H. Lai, L. Zhang, W. Hua, S. Indris, Z. Yan, Z. Hu, B. Zhang, Y. Liu, L. Wang, M. Liu, Y. Wang, J. Wang, Z. Hu, H. Liu, S. L. Chou*, S. Dou, General p-Electron-Assisted Strategy for Ir, Pt, Ru, Pd, Fe, Ni Single-Atom Electrocatalysts with Bifunctional Active Sites for Highly Efficient Water Splitting" Angew. Chem. Int. Ed. 2019. 58(34): p. 11868-11873.

18.Q.B. Xia, Z. Lin, W. Lai, Y. Wang, C. Ma, Z. Yan, Q. Gu, W. Wei, J. Wang, Z.Z. Zhang*, H. K. Liu, S. X. Dou, and S.L. Chou*, 2D Titania-Carbon Superlattices Vertically Encapsulated in 3D Hollow Carbon Nanospheres Embedded with 0D TiO2 Quantum Dots for Exceptional Sodium-Ion Storage, Angew. Chem. Int. Ed. 2019, 58(40): p. 14125-14128.

19.Q.B. Xia, Y. Huang, J. Xiao, L. Wang,* Z.H. Lin, W.J. Li, H. Liu,* Q.F. Gu, H.K. Liu, and S.L. Chou* “Phosphorus-Modulation-Triggered Surface Disorder in Titanium Dioxide Nanocrystals Enables Exceptional Sodium-Storage Performance” Angew. Chem. Int. Ed. 2019, 58, 4022–4026.

20.Q. Zhang, Y.Y. Lu, L.C. Miao, Q. Zhao, K.X. Xia, J. Liang,* S. L. Chou*, J. Chen, An Alternative to Lithium Metal Anodes: Non-dendritic and Highly Reversible Sodium Metal Anodes for Li–Na Hybrid Batteries, Angew. Chem. Int. Ed. 2018, 57(45), 14796-14800.

21.W. Zhang, J. Peng, W.B. Hua, Y. Liu, J.S. Wang, Y.R. Liang, W.H. Lai, Y. Jiang, Y. Huang, W. Zhang, H.L. Yang, Y.G. Yang, L.N. Li, Z.J. Liu, L. Wang, and S. L. Chou*, "Architecting Amorphous Vanadium Oxide/MXene Nanohybrid via Tunable Anodic Oxidation for High-Performance Sodium-Ion Batteries". Adv. Energy Mater., 2021. 11(22).

22.L. Li, Z. Hu, Y. Lu, C.C. Wang, Q. Zhang, S. Zhao, J. Peng, K. Zhang, S. L. Chou*, and J. Chen, "A Low-Strain Potassium-Rich Prussian Blue Analogue Cathode for High Power Potassium-Ion Batteries". Angew. Chem.-Int. Edit., 2021. 60(23): p. 13050-13056.

23.Z. Hu, Y.Y. Xie, D.S. Yu, Q.N. Liu, L.M. Zhou, K. Zhang, P. Li, F. Hu, L.L. Li, S. L. Chou*, and S.J. Peng, "Hierarchical Ti3C2Tx MXene/Carbon Nanotubes for Low Overpotential and Long-Life Li-CO2 Batteries". ACS Nano, 2021. 15(5): p. 8407-8417.

24.Y.Q. Zhou, L.F. Zhang, H.L. Suo, W.B. Hua, S. Indris, Y.J. Lei, W.H. Lai, Y.X. Wang, Z.P. Hu, H.K. Liu, S. L. Chou*, and S.X. Dou, "Atomic Cobalt Vacancy-Cluster Enabling Optimized Electronic Structure for Efficient Water Splitting". Adv. Funct. Mater.

25.H.L. Yang, S. Zhou, B.W. Zhang, S.Q. Chu, H.P. Guo, Q.F. Gu, H.W. Liu, Y.J. Lei, K. Konstantinov, Y.X. Wang, S. L. Chou*, H.K. Liu, and S.X. Dou, "Architecting Freestanding Sulfur Cathodes for Superior Room-Temperature Na-S Batteries". Adv. Funct. Mater.

26.J.W. Ding, H.Y. Zheng, H.G. Gao, Q.N. Liu, Z. Hu, L.F. Han, S.W. Wang, S.D. Wu, S.M. Fang, and S. L. Chou*, "In Situ Lattice Tunnel Distortion of Vanadium Trioxide for Enhancing Zinc Ion Storage". Adv. Energy Mater.

27.M.Z. Chen, Y.Y. Zhang, G.C.A. Xing, S. L. Chou*, and Y.X. Tang, "Electrochemical energy storage devices working in extreme conditions". Energy Environ. Sci.

28.Z.J. Zhang, W.J. Li, S.L. Chou, C. Han, H.K. Liu, and S.X. Dou, "Effects of carbon on electrochemical performance of red phosphorus (P) and carbon composite as anode for sodium ion batteries". Journal of Materials Science & Technology, 2021. 68: p. 140-146.

29.Y.H. Wan, K.M. Song, W.H. Chen, C.D. Qin, X.X. Zhang, J.Y. Zhang, H.L. Dai, Z. Hu, P.F. Yan, C.T. Liu, S.H. Sun, S. L. Chou*, and C.Y. Shen, "Ultra-High Initial Coulombic Efficiency Induced by Interface Engineering Enables Rapid, Stable Sodium Storage". Angew. Chem.-Int. Edit., 2021. 60(20): p. 11481-11486.

30.H.W. Liu, W.H. Lai, H.L. Yang, Y.F. Zhu, Y.J. Lei, L.F. Zhao, J. Peng, Y.X. Wang, S. L. Chou, and H.K. Liu, "Efficient separators with fast Li-ion transfer and high polysulfide entrapment for superior lithium-sulfur batteries". Chemical Engineering Journal, 2021. 408.

31.L. Li, S. Zhao, Z. Hu, S. L. Chou*, and J. Chen, "Developing better ester- and ether-based electrolytes for potassium-ion batteries". Chemical Science, 2021. 12(7): p. 2345-2356.

32.F. Gebert, J. Knott, R. Gorkin, S. L. Chou*, and S.X. Dou, "Polymer electrolytes for sodium-ion batteries". Energy Storage Mater., 2021. 36: p. 10-30.

33.S. L. Chou*, S.X. Dou, and X.L. Wang, "From Fundamental Research to Applications: The Success Story of the Institute for Superconducting and Electronic Materials". Small, 2021. 17(9).

34.Q.N. Liu, Z. Hu, W.J. Li, C. Zou, H.L. Jin, S. Wang, S. L. Chou*, and S.X. Dou, "Sodium transition metal oxides: the preferred cathode choice for future sodium-ion batteries?". Energy Environ. Sci., 2021. 14(1): p. 158-179.

35.X.R. Zheng, X.P. Han, Y.H. Cao, Y. Zhang, D. Nordlund, J.H. Wang, S. L. Chou*, H. Liu, L.L. Li, C. Zhong, Y.D. Deng, and W.B. Hu, "Identifying Dense NiSe2/CoSe2 Heterointerfaces Coupled with Surface High-Valence Bimetallic Sites for Synergistically Enhanced Oxygen Electrocatalysis". Adv. Mater., 2020. 32(26): p. 11.

36.S. Zhao, C.C. Wang, D.F. Du, L. Li, S. L. Chou*, F.J. Li, and J. Chen, "Bifunctional Effects of Cation Additive on Na-O-2 Batteries". Angew. Chem.-Int. Edit., 2021. 60(6): p. 3205-3211.

37. L.F. Zhao, Z. Hu, W.H. Lai, Y. Tao, J. Peng, Z.C. Miao, Y.X. Wang, S. L. Chou*, H.K. Liu, and S.X. Dou, "Hard Carbon Anodes: Fundamental Understanding and Commercial Perspectives for Na-Ion Batteries beyond Li-Ion and K-Ion Counterparts". Adv. Energy Mater., 2021. 11(1).

38.Z. Yang, X.H. Liu, X.X. He, W.H. Lai, L. Li, Y. Qiao, S. L. Chou*, and M.H. Wu, "Rechargeable Sodium-Based Hybrid Metal-Ion Batteries toward Advanced Energy Storage". Adv. Funct. Mater., 2021. 31(8).

39.Y. Liu, Y. Jiang, Z. Hu, J. Peng, W.H. Lai, D.L. Wu, S.W. Zuo, J. Zhang, B. Chen, Z.W. Dai, Y.G. Yang, Y. Huang, W. Zhang, W. Zhao, W. Zhang, L. Wang, and S. L. Chou*, "In-Situ Electrochemically Activated Surface Vanadium Valence in V2C MXene to Achieve High Capacity and Superior Rate Performance for Zn-Ion Batteries". Adv. Funct. Mater., 2021. 31(8).

40.K. Zhang, W. Tamakloe, L.M. Zhou, M.H. Park, J. Zhang, D.A. Agyeman, S. L. Chou*, and Y.M. Kang, "Multifunctionalities of Graphene for Exploiting a Facile Conversion Reaction Route of Perovskite CoSnO3 for Highly Reversible Na Ion Storage". Journal of Physical Chemistry Letters, 2020. 11(19): p. 7988-7995.

41.W.J. Li, C. Han, Q.F. Gu, S. L. Chou*, J.Z. Wang, H.K. Liu, and S.X. Dou, "Electron Delocalization and Dissolution-Restraint in Vanadium Oxide Superlattices to Boost Electrochemical Performance of Aqueous Zinc-Ion Batteries". Adv. Energy Mater., 2020. 10(48).

42.M.Z. Chen, Q.N. Liu, Z. Hu, Y.Y. Zhang, G.C. Xing, Y.X. Tang, and S. L. Chou*, "Designing Advanced Vanadium-Based Materials to Achieve Electrochemically Active Multielectron Reactions in Sodium/Potassium-Ion Batteries". Adv. Energy Mater., 2020. 10(42).

43.W. Zhang, H.X. Li, Z.A. Zhang, M. Xu, Y.Q. Lai, and S. L. Chou*, "Full Activation of Mn4+/Mn3+ Redox in Na4MnCr(PO4)(3) as a High-Voltage and High-Rate Cathode Material for Sodium-Ion Batteries". Small, 2020. 16(25): p. 8.

44.Z.C. Yan, Y.R. Liang, J. Xiao, W.H. Lai, W.L. Wang, Q.B. Xia, Y.X. Wang, Q.F. Gu, H.M. Lu, S. L. Chou*, Y. Liu, H.K. Liu, and S.X. Dou, "A High-Kinetics Sulfur Cathode with a Highly Efficient Mechanism for Superior Room-Temperature Na-S Batteries". Adv. Mater., 2020. 32(8): p. 10.

45.Z.C. Yan, Y.R. Liang, W.B. Hua, X.G. Zhang, W.H. Lai, Z. Hu, W.L. Wang, J. Peng, S. Indris, Y.X. Wang, S. L. Chou*, H.K. Liu, and S.X. Dou, "Multiregion Janus-Featured Cobalt Phosphide-Cobalt Composite for Highly Reversible Room-Temperature Sodium-Sulfur Batteries". ACS Nano, 2020. 14(8): p. 10284-10293.

46.W.L. Wang, Z. Hu, Z.C. Yan, J. Peng, M.Z. Chen, W.H. Lai, Q.F. Gu, S. L. Chou*, H.K. Liu, and S.X. Dou, "Understanding rhombohedral iron hexacyanoferrate with three different sodium positions for high power and long stability sodium-ion battery". Energy Storage Mater., 2020. 30: p. 42-51.

47. E.H. Wang, M.Z. Chen, X.D. Guo, S. L. Chou*, B.H. Zhong, and S.X. Dou, "Synthesis Strategies and Structural Design of Porous Carbon-Incorporated Anodes for Sodium-Ion Batteries". Small Methods, 2020. 4(6): p. 32.

48.Y. Liu, D.D. He, Y.J. Cheng, L. Li, Z.S. Lu, R. Liang, Y.Y. Fan, Y. Qiao, and S. L. Chou*, "A Heterostructure Coupling of Bioinspired, Adhesive Polydopamine, and Porous Prussian Blue Nanocubics as Cathode for High-Performance Sodium-Ion Battery". Small, 2020. 16(11): p. 8.

49.X.H. Liu, W.H. Lai, and S. L. Chou*, "The application of hollow micro-/nanostructured cathodes for sodium-ion batteries". Mat. Chem. Front., 2020. 4(5): p. 1289-1303.

50.Q.N. Liu, Z. Hu, M.Z. Chen, C. Zou, H.L. Jin, S. Wang, S. L. Chou*, Y. Liu, and S.X. Dou, "The Cathode Choice for Commercialization of Sodium-Ion Batteries: Layered Transition Metal Oxides versus Prussian Blue Analogs". Adv. Funct. Mater., 2020. 30(14): p. 15.

51.H.W. Liu, W. Pei, W.H. Lai, Z.C. Yan, H.L. Yang, Y.J. Lei, Y.X. Wang, Q.F. Gu, S. Zhou, S. L. Chou*, H.K. Liu, and S.X. Dou, "Electrocatalyzing S Cathodes via Multisulfiphilic Sites for Superior Room-Temperature Sodium-Sulfur Batteries". ACS Nano, 2020. 14(6): p. 7259-7268.

52.W.J. Li, C. Han, W.L. Wang, Q.B. Xia, S. L. Chou*, Q.F. Gu, B. Johannessen, H.K. Liu, and S.X. Dou, "Stress Distortion Restraint to Boost the Sodium Ion Storage Performance of a Novel Binary Hexacyanoferrate". Adv. Energy Mater., 2020. 10(4): p. 11.

53.W.J. Li, C. Han, Q.F. Gu, S. L. Chou*, H.K. Liu, and S.X. Dou, "Three-Dimensional Electronic Network Assisted by TiN Conductive Pillars and Chemical Adsorption to Boost the Electrochemical Performance of Red Phosphorus". ACS Nano, 2020. 14(4): p. 4609-4617.

54.W.H. Lai, Y.X. Wang, J.Z. Wang, S. L. Chou*, and S.X. Dou, "Manipulating 2D Few-Layer Metal Sulfides as Anode Towards Enhanced Sodium-Ion Batteries". Batteries Supercaps, 2020. 3(3): p. 236-253.

55.Z. Hu, Q.N. Liu, W.H. Lai, Q.F. Gu, L. Li, M.Z. Chen, W.L. Wang, S. L. Chou*, Y. Liu, and S.X. Dou, "Manipulating Molecular Structure and Morphology to Invoke High-Performance Sodium Storage of Copper Phosphide". Adv. Energy Mater., 2020. 10(19): p. 8.

56.L.F. Han, S.D. Wu, Z. Hu, M.Z. Chen, J.W. Ding, S.W. Wang, Y. Zhang, D.J. Guo, L. Zhang, S.K. Cao, and S. L. Chou*, "Hierarchically Porous MoS2-Carbon Hollow Rhomboids for Superior Performance of the Anode of Sodium-Ion Batteries". ACS Appl. Mater. Interfaces, 2020. 12(9): p. 10402-10409.

57.S. L. Chou and S.X. Dou, "Boosting up the Li-CO2 Battery by the Ultrathin RuRh Nanosheet". Matter, 2020. 2(6): p. 1356-1358.

58.Q.B. Xia, Y.R. Liang, Z.H. Lin, S.W. Wang, W.H. Lai, D. Yuan, Y.H. Dou, Q.F. Gu, J.Z. Wang, H.K. Liu, S.X. Dou, S.M. Fang, and S. L. Chou*, "Confining Ultrathin 2D Superlattices in Mesoporous Hollow Spheres Renders Ultrafast and High-Capacity Na-Ion Storage". Adv. Energy Mater.: 2020 p. 8.

59 .W. Zhang, Y. Huang, Y. Liu, L. Wang, S. L. Chou*, and H.K. Liu, "Strategies Toward Stable Nonaqueous Alkali Metal-O-2 Batteries". Adv. Energy Mater., 2019. 9(24): p. 22.

60 .E.H. Wang, M.Z. Chen, X.H. Liu, Y.M. Liu, H.P. Guo, Z.G. Wu, W. Xiang, B.H. Zhong, X.D. Guo, S. L. Chou*, and S.X. Dou, "Organic Cross-Linker Enabling a 3D Porous Skeleton-Supported Na3V2(PO4)(3)/Carbon Composite for High Power Sodium-lon Battery Cathode". Small Methods, 2019. 3(4): p. 10.

61.Q.N. Liu, Z. Hu, M.Z. Chen, C. Zou, H.L. Jin, S. Wang, Q.F. Gu, and S. L. Chou*, "P2-type Na2/3Ni1/3Mn2/3O2 as a cathode material with high-rate and long-life for sodium ion storage". J. Mater. Chem. A, 2019. 7(15): p. 9215-9221.

62 .Q.N. Liu, Z. Hu, M.Z. Chen, C. Zou, H.L. Jin, S. Wang, S. L. Chou*, and S.X. Dou, "Recent Progress of Layered Transition Metal Oxide Cathodes for Sodium-Ion Batteries". Small, 2019. 15(32): p. 24.

63.Z.H. Lin, Q.B. Xia, W.L. Wang, W.S. Li, and S. L. Chou*, "Recent research progresses in ether- and ester-based electrolytes for sodium-ion batteries". InfoMat, 2019. 1(3): p. 376-389.

64.W.J. Li, C. Han, G. Cheng, S. L. Chou*, H.K. Liu, and S.X. Dou, "Chemical Properties, Structural Properties, and Energy Storage Applications of Prussian Blue Analogues". Small, 2019. 15(32): p. 21.

65. P. Huang, M. Huang, H. Hu, Y. Zhong, C. Lai, and S. L. Chou*, "Single crystal polyoxoniobate derived NbO/Cu nanocrystalline@N-doped carbon loaded onto reduced graphene oxide enabling high rate and high capacity Li/Na storage". J. Mater. Chem. A, 2019. 7(46): p. 26513-26523.

66 .M.Z. Chen, E.H. Wang, Q.N. Liu, X.D. Guo, W.H. Chen, S. L. Chou*, and S.X. Dou, "Recent progress on iron- and manganese-based anodes for sodium-ion and potassium-ion batteries". Energy Storage Mater., 2019. 19: p. 163-178.

67. M.Z. Chen, Q.N. Liu, S.W. Wang, E.H. Wang, X.D. Guo, and S. L. Chou*, "High-Abundance and Low-Cost Metal-Based Cathode Materials for Sodium-Ion Batteries: Problems, Progress, and Key Technologies". Adv. Energy Mater., 2019. 9(14): p. 41.

68 .M.Z. Chen, S. L. Chou*, and S.X. Dou, "Understanding Challenges of Cathode Materials for Sodium-Ion Batteries using Synchrotron-Based X-Ray Absorption Spectroscopy". Batteries Supercaps, 2019. 2(10): p. 842-851.

69. W.B. Luo, X.W. Gao, S.L. Chou*, J.Z. Wang, H.K. Liu, “Porous AgPd-Pd composite nanotubes as highly efficient electrocatalyst for the lithium-oxygen battery” Adv. Mater. 2015 27, 6862, 6869. (IF: 17.493)

70.M.Z. Chen, L. Chen, Z. Hu, Q.N. Liu, B.Z. Zhang, Y.X. Hu, Q.F. Gu, J.L. Wang, L.Z. Wang, X.D. Guo, * S.L. Chou*, S.X. Dou, “Carbon Coated Na3.32Fe2.34(P2O7)2 Cathode Material for High-rate and Long-life Sodium-ion Batteries” Adv. Mater. 2017, 29(21), 1605535. (IF:18.960)

71. Z.X. Tai, C. M. Subram, S.L. Chou*, L.N. Chen, H.K. Liu, S. X. Dou, “Few-atom layers lithium cathode materials to achieve ultra-high rate capability” Adv. Mater. 2017, 29(34), 
1700605. (IF:18.960)

72 .Z. Hu, Q.N. Liu, S.L. Chou*, S. X. Dou, “Advances and Challenges in Metal Sulfides/Selenides for next generation rechargeable sodium-ion batteries”, Adv. Mater. 2017, 29(48), 1700606. (Cited times:2) (IF:18.960)

73 .S.L. Chou*, S.X. Dou, Adv. Mater., "Next-Generation Batteries", 2017, 29(48), 1705871.

74 .W.J. Li$, S.L. Chou*, J. Z. Wang, J. H. Kim, H.K. Liu, S.X. Dou, “Sn4+xP3 @ amorphous Sn-P composite as anode for sodium-ion batteries with low cost, high capacity, long life, and superior rate capability" Adv. Mater. 2014, 26, 4037–4042. (IF: 17.493) (Cited times:50)

75 .W. Ding, L. Hu, J. Dai, X. Tang, R. Wei, Z. Sheng, C. Liang, D. Shao, W. Song, Q. Liu, M. Chen, X. Zhu, S. L. Chou*, X. Zhu, Q. Chen, Y. Sun, and S.X. Dou, Highly Ambient-Stable 1T-MoS2 and 1T-WS2 by Hydrothermal Synthesis under High Magnetic Fields. ACS Nano, (2019).

76. Z. Hu, Z. Tai, Q. Liu, S.W. Wang, H. Jin, S. Wang, W.H. Lai, M.Z. Chen, L. Li, L. Chen,  Z. Tao, and S. L. Chou*, Ultrathin 2D TiS2 Nanosheets for High Capacity and Long-Life Sodium Ion Batteries. Adv. Energy Mater., (2019) 1803210.

77. W. Hua, M.Z. Chen, B. Schwarz, M. Knapp, M. Bruns, J. Barthel, X. Yang, F. Sigel, R. Azmi, A. Senyshyn, A. Missiul, L. Simonelli, M. Etter, S. Wang, X. Mu, A. Fiedler, J. R. Binder, X. Guo, S. L. Chou*, B. Zhong, S. Indris, and H. Ehrenberg, Lithium/Oxygen Incorporation and Microstructural Evolution during Synthesis of Li-Rich Layered Li[Li0.2Ni0.2Mn0.6]O2 Oxides. Adv. Energy Mater., (2019) 1803094.

78 .W.H. Lai, B.W. Zhang, Z. Hu, X.M. Qu, Y.X. Jiang, Y. X. Wang, J.Z. Wang, H.K. Liu, and S. L. Chou*, The Quasi-Pt-Allotrope Catalyst: Hollow PtCo@single-Atom Pt1 on Nitrogen-Doped Carbon toward Superior Oxygen Reduction. Adv. Funct. Mater., (2019) 1807340.

79 .S.J. Peng, X.P. Han, L.L. Li, S. L. Chou*, D.X. Ji, H.J. Huang, Y.H. Du, J. Liu, S. Ramakrishna, Electronic and defective engineering of electronspun CaMnO3 nanotubes for enhanced oxygen electrocatalysis in rechargeable Zinc-Air Batteries, Adv. Energy Mater. 2018, 8, 1800612.

80. C. Zhu, Z. Yin, W. Lai, Y. Sun, L. Liu, X. Zhang, Y. Chen*, S. L. Chou*, Fe-Ni-Mo Nitride Porous Nanotubes for Full Water Splitting and Zn-Air Batteries, Adv. Energy Mater. 2018, 1802327

81.M.Z. Chen, D. Cortie, Z. Hu, H.L. Jin, S. Wang*, Q.F. Gu, W.B. Hua, E.H. Wang, W.H. Lai, L.N. Chen, S. L. Chou*, X.L. Wang, S.X. Dou, A Novel Graphene Oxide Wrapped Na2Fe2(SO4)3/C Cathode Composite for Long Life and High Energy Density Sodium-Ion Batteries, Adv. Energy Mater. 2018, 8, 1800944.

82. L. Zhou, K. Zhang, Z. Hu, Z. Tao, L. Mai, Y.M. Kang, S. L. Chou*, J. Chen, Recent Developments on and Prospects for Electrode Materials with Hierarchical Structures for Lithium-Ion Batteries Adv. Energy Mater. 2018, 8(6) 1701415.

83. Y. Liang, W.H. Lai, Z. Miao, S. L. Chou*, Nanocomposite Materials for the Sodium–Ion Battery: A Review, Small 2018, 14(5), 1702514.

84. Q.Z. Zhang, D. Zhang, Z.C. Miao, X.L. Zhang, S. L. Chou*, Research Progress in MnO2–Carbon Based Supercapacitor Electrode Materials, Small 2018, 14(24), 1702883.

85 W.-B. Luo, X.-W. Gao, S.L. Chou*, Y. M. Kang, J. Z. Wang, H. K. Liu, S. X. Dou, Investigation of Promising Air Electrode for Realizing Ultimate Lithium Oxygen Battery, Adv. Energy Mater. 2017, 7(24), 1700234. (IF: 15.230)

86 Y. W. Wu, R. H. Zeng, J.M. Nan, D. Shu, Y.C. Qiu, S.L. Chou*, Quinone Electrode Materials for Rechargeable Lithium/Sodium Ion Batteries Adv. Energy Mater. 2017, 7(24), 1700278. (IF: 15.230)

87 Y.X. Wang, S.L. Chou*, H. K. Liu, S. X. Dou, Room-temperature sodium-sulfur batteries: A comprehensive review on research progress and cell chemistry, Adv. Energy Mater. 2017, 7(24), 1602829. (IF: 15.230) (LP160100914)

88 W.J. Li, C. Han, W.L. Wang, F. Gebert, S.L. Chou*, H.K. Liu, S. X. Dou, Commercial prospects of existing cathode materials for sodium ion storage Adv. Energy Mater. 2017, 7(24), 1700274. (IF: 15.230)

89 C.-S. Li, Y. Sun, F. Gebert, S.L. Chou*, “Current Progress on Rechargeable Magnesium-Air Battery” Adv. Energy Mater. 2017, 7(24), 1700869. (IF: 15.230)

90 L. Zhou, K. Zhang, Z. Hu, Z. Tao*, L.Q. Mai, Y.M. Kang, S.L. Chou*, J. Chen, “Recent Developments on and Prospects for Electrode Materials with Hierarchical Structures for Lithium-Ion Batteries” Adv. Energy Mater. 2017, 8 (6),1701415 (IF: 15.230)

91 S.L. Chou, Y. Yu, Adv. Energy Mater., "Next Generation Batteries: Aim for the Future" 2017, 7(24), 1703223. (IF: 15.230) 

92 Y.D. Pan,  Y. Zhou*, Q. ZhaoY. Dou, S.L. Chou*, F.Y. Cheng, J. Chen, H. K. Liu, L. Jiang*, S. X. Dou, Introducing Ion-Transport-Regulating Nanochannels to Lithium-Sulfur Batteries” Nano Energy, 2017, 33, 205-212 (IF:11.553) 

93 Q. Liu, Z. Hu, M.Z. Chen, Q.F. Gu*, Y. Dou, Z. Sun*, S.L. Chou*, S.X. Dou, “Multiangular Rod-Shaped Na0.44MnO2 as Cathode Materials with High Rate and Long Life for Sodium-Ion Batteries” ACS Appl. Mater. Interfaces, 2017 9(4), pp. 3644-3652  (IF: 7.145)

94 W. Hua, W. Liu, M.Z. Chen, S. Indris, Z. Zheng, X. Guo, M. Bruns, T.H. Wu, Y. Chen, B. Zhong, S.L. Chou*, Y.M. Kang, H. Ehrenberg, Unravelling the growth mechanism of hierarchically structured Ni1/3Co1/3Mn1/3(OH)2 and their application as precursors for high-power cathode materials, Electrochim. Acta 232, pp. 123-131

95 Q. Xia, W. Li, Z. Miao, S.L. Chou*, H. Liu, Phosphorus and phosphide nanomaterials for sodium-ion batteries. Nano Research 2017, 1-27.

96 Y. W. Wu, R. H. Zeng, J.M. Nan, D. Shu, Y.C. Qiu, S.L. Chou*, Quinone Electrode Materials for Rechargeable Lithium/Sodium Ion Batteries Adv. Energy Mater. 2017 published online  10.1002/aenm.201700278 (IF: 15.230)

97 Y.X. Wang, S.L. Chou*, H. K. Liu, S. X. Dou, Room-temperature sodium-sulfur batteries: A comprehensive review on research progress and cell chemistry, Adv. Energy Mater. 2017 published online 10.1002/aenm.201602829 (IF: 15.230)

98 W.J. Li, C. Han, S.L. Chou*, J.Z. Wang, Z. Li, Y.M. Kang, H.K. Liu, S.X. Dou "Graphite nanoplate coated Bi2S3 composite with high volume energy density and excellent cycle life for room-temperature sodium - sulfide batteries" Chem. Eur. J. 2016, 22 (2), 590-597. (IF: 5.771)

99 X. Chen, Y. Wu, Z. Huang, X. Yang, W. Li, L. C. Yu, R. Zeng, Y. Luo, S.L. Chou*, C10H4O2S2/graphene composite as a cathode material for sodium-ion batteries. J. Mater. Chem. A 2016, 4 (47), 18409-18415. (IF: 8.262)

100 *N. Wang*, Y. Gao, Y. X. Wang*, K. Liu, W. Lai, Y. Hu, Y. Zhao, S.L. Chou*, L. Jiang, Nanoengineering to Achieve High Sodium Storage: A Case Study of Carbon Coated Hierarchical Nanoporous TiO2 Microfibers. Advanced Science 2016, 3 (8), 1600013. (IF: 6.0)

101 W.J. Li$, S.L. Chou*, J.Z. Wang, Y.M. Kang, J.L. Wang, Y, Liu, Q.F. Gu, H.K. Liu, S.X. Dou, A facile method to synthesize Na-enriched Na1+xFeFe(CN)6 frameworks as cathode with superior electrochemical performance for sodium-ion batteries” Chem. Mater. 2015, 27, 1997-2003. (IF: 8.354) (Cited times:2)

102 W.J. Li$, S.L. Chou*, J.Z. Wang, H.K. Liu, S.X. Dou, “A high capacity, cheap, productive FeP anode material for sodium-ion batteries” Chem. Commun. 2015, 51, 3682-3685. (IF: 6.834) (Cited times:6)

103 W.J. Li$, S.L. Chou*, J.Z. Wang, J.L. Wang, Q.F. Gu, H.K. Liu, S.X. Dou, “Multifunctional conducing polymer coated Na1+xMnFe(CN)6 cathode for sodium-ion batteries with superior performance via a facile and one-step chemistry approach” Nano Energy 2015, 13, 200-207.  (IF:10.325) (Cited times:4)

104 W.J. Li$, Q.R. Yang$, S.L. Chou*, J.Z. Wang, H.K. Liu, “Cobalt phosphide as a new anode material for sodium storage” J. Power Sources, 2015, 294, 627-632. (IF:6.217)

105 S.L. Chou*, Y. Pan, J.Z. Wang, H.K. Liu, S.X. Dou, "Small things make a big difference: Binder effects on the performance of Li and Na batteries" Phys. Chem. Chem. Phys. 2014, 16(38), 20347-20359. (Cited times:17) (IF: 4.493)

106 Y.X. Wang$, K. H. Seng, S.L. Chou*, J.Z. Wang,   Z. Guo, D. Wexler, H. K. Liu, S. X. Dou,  “Reversible sodium storage via conversion reaction of a MoS2–C composite” Chem. Commun., 2014, 50, 10730-10733. (Cited times:20) (IF: 6.834)

107 Y.X. Wang$, Y. G. Lim, M. S. Park*, S.L. Chou*, J. H. Kim, H. K. Liu, S. X. Dou, Y. J. Kim, “Ultrafine SnO2 nanoparticles loading onto reduced graphene oxide as anodes for sodium-ion batteries with superior rate and cycling performances”, J. Mater. Chem. A. 2014, 2, 529-534. (IF: 7.443) (Cited times:36)

108 Y.X. Wang$, S.L. Chou*, D. Wexler, H. K. Liu, S. X. Dou, “High-Performance Sodium-Ion Batteries and Sodium-Ion Pseudocapacitors Based On MoS2/Graphene Composites" Chem. Eur. J. 2014, 20(31), 9607-9612. (Cited times:28) (IF: 5.731)

109 J.T. Xu$, S.L. Chou*, J.L. Wang, H.K. Liu, S.X. Dou, "Layered P2-Na0.66Fe0.5Mn0.5O2 Cathode Material for Rechargeable Sodium-Ion Batteries" ChemElectroChem, 2014, 1(2), 371–374. (New journal) (Cited times:10)

110. W.J. Li$, S.L. Chou*, J.Z. Wang, H.K. Liu, S.X. Dou, “Simply Mixed Commercial Red Phosphorus and Carbon Nanotube Composite with Exceptionally Reversible Sodium-Ion Storage” Nano Letters, 2013, 13(11), 5480-5484. (Cited times:63) (IF: 13.592)

111. Y.X. Wang$, S.L. Chou*, H.K. Liu, S.X. Dou, "Reduced graphene oxide with superior cycling stability and rate capability for sodium storage", Carbon, 2013, 57, 202-208. (Cited times:89) (IF: 6.196)

112. S.L. Chou*, J.Z. Wang*, H.K. Liu, S.X. Dou, “Rapid Synthesis of Li4Ti5O12 Microspheres as Anode Materials and its Binder Effect for Lithium-ion Battery”, J. Phys. Chem. C 2011, 115, 16220 (Cited times:128) (IF:4.772)

113. S.L. Chou*, J.Z. Wang*, M. Choucair, H.K. Liu, J. A. Stride, S.X. Dou, “Enhanced reversible lithium storage in nanosize silicon/graphene composite”, Electrochem. Commun. 2010, 12, 303-306. (Cited times:229) (IF: 4.847)

114. S.L. Chou*, J.Z. Wang, J.Z. Sun, D. Wexler, M. Forsyth, H.K. Liu, D.R. MacFarlane, S.X. Dou, “High capacity, safety and enhanced cycleability of lithium metal battery using V2O5 nanomaterials cathode and room temperature ionic liquid electrolyte”, Chem. Mater. 2008, 20, 7044-7051. (Cited times:110) (IF: 8.354)

115. S.L. Chou*, J.Z. Wang, S.Y. Chew, H.K. Liu, S.X. Dou, “Electrodeposition of MnO2 nanowires on carbon nanotube paper as free-standing, flexible electrode for supercapacitors”, Electrochem. Commun. 2008, 10, 1724-1727. (Cited times:219) (IF: 4.847)

116 .S.L. Chou, F. Cheng, J. Chen*, "Electrodeposition synthesis and electrochemical properties of nanostructured MnO2 films", J. Power Sources 2006,162, 727-734. (Cited times:121) (IF:6.217)

117. S.L. Chou, F. Cheng, J. Chen*, "Electrochemical deposition of Ni(OH)2 and Fe-doped Ni(OH)2 tubes", Eur. J. Inorg. Chem. 2005, 4035-4039. (Cited times:38) (IF:2.942)


代表性研究成果

成果一:研发了单晶无结晶水普鲁士蓝正极。

       运用晶体学工程,攻克了普鲁士蓝正极材料除水的瓶颈问题,显著提升了电化学性能,并实现吨级生产,产业化技术居全球领先水平。该系列材料具有大单晶颗粒、低成本、无结晶水、高放电倍率和长寿命的优点,经过500圈的循环,容量保持率高达98.9%。相关研究在Nature Chemistry、Nature Communications等国际高水平期刊发表学术论文75篇,申请和授权发明专利9项,其中国际发明专利3项。


成果二:开发了一套以环境友好型可再生生物质如秸秆、毛竹为原料的硬碳制备新工艺。

       实现硬碳孔道结构和表面缺陷的精确调控,合成出具有大层间距、互联互通的超结构硬碳,攻克了高容量、高首效、高倍率、长寿命硬碳负极材料吨级制备瓶颈。相比较于国内外其它负极材料,所合成的硬碳负极具有330 mAh/g的可逆容量,并且首次库伦效率达到92.2%,100圈循环容量保持率99%,综合性能优于国内贝特瑞硬碳以及日本可乐丽硬碳。相关研究在自然通讯等国际高水平期刊发表学术论文58篇,申请和授权发明专利8项,其中国际发明专利2项。


成果三:创新性地提出了一种基于氢键调控的新方法。

       此方法使电解液形成稳定的溶剂化结构,能够在正负极形成紧致的电解液/电极材料界面膜,从而突破目前阻燃电解液不能与正负极同时稳定兼容的“卡脖子”问题,并以此研制出不可燃烧的软包型钠离子电池。相比于传统商用电解液,该电解液具有阻燃特性的同时,兼具良好的低温能力,在-30℃循环时仍具有常温下89.5%的容量保持率。除此之外,该电解液还更耐高压更稳定,窗口可达4.9V,能够使电池稳定循环超过1000圈后仍具有99.5%的容量保持率。相关成果申请专利5项,发表国际期刊论文23篇。

    


领导(参与)过的主要项目


项目名称

项目性质及来源

项目经费(万元)

起止

年度

本人

排名

本人职务及所起作用

Structural insight into iron-manganese-based prussian blue and tunnel oxide composite cathodes for practical and low cost sodium-ion batteries

国家自然科学基金-外国资深学者研究基金团队试点项目

370

2023.1-2025.12

1/1

项目第一负责人,负责项目的电极材料研发,成果推广以及研究生培养等。

高性能低成本钠离子电池研发与产业化

瓯海区人民政府

4000

2021.09-2026.09

1/8

项目第一负责人,全面负责钠离子电池关键材料的研发和产业化。

材料基因工程技术在高比能钠离子电池关键材料设计中的应用及验证

国家电网

890

2021.10-2024.09

2/6

子课题负责人,主要负责钠离子电池单体制备及验证。

铁锰基普鲁士蓝用于低成本钠离子电池正极的关键科学问题研究

国家自然科学基金面上项目

58

2022.01-2026.01

1/6

项目第一负责人,负责项目的电极材料研发,成果推广以及研究生培养等。

铁镍基高电位聚阴离子钠离子电池正极材料研究

国家自然科学基金面上项目

60

2020.01-2024.01

1/5

项目第一负责人,负责项目的电极材料研发,成果推广以及研究生培养等工作。

Smart sodium storage system for renewable energy storage (用于可再生能源存储的智能钠存储系统)

澳大利亚可再生能源局

5247

2016.04-2020.04

3/6

项目第三负责人,前两位都是院士。本人负责承担钠离子电池的材料开发和电池生产。

Lithium-ion air batteries with non-flammable ionic liquid-based electrolytes: a platform to safety in lithium-air batteries (不易燃离子液体电解液的锂离子空气电池)

澳大利亚研究委员会

173

2014.02-2017.02

3/6

项目第三负责人,负责项目中新型锂空气电池结构设计与催化剂开发。


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