邓永红

教授 材料科学与工程系

邓永红博士,南方科技大学材料科学与工程系教授,创新创业学院副院长,深圳市孔雀B类人才。主要研究兴趣是高能量密度电池及其关键材料的研发,研究重点是二次电池电解液、固态电解质、聚合物粘结剂和固态电池。在Nature Communications,Energy & Environmental Science,Advanced Materials,Advanced Energy Materials,Nano Letters等期刊上发表论文200余篇,被引6216次,ESI高被引文章4篇,H指数为44;发明专利100余项(授权42项);在国内外重要学术会议作特邀报告20余次;现任中国固态离子学会理事、《储能科学与技术》杂志编委、中国能源学会专家委员会委员和中国储能与动力电池及其材料专业委员会委员等。

个人简介

教育背景
2000.9-2003.12 清华大学 材料科学与工程 博士
1997.9-2000.6 华南理工大学 材料学 硕士
1986.9-1990.6 湘潭大学 化学工程 学士

工作经历
2022.05-至今 南方科技大学 教授、博导
2016.06-2022.05南方科技大学 副教授岗位/教授职称
2014.09-2016.06 华南理工大学 教授、博导
2008.12-2014.08 华南理工大学 副教授
2007.01-2008.08 美国劳伦斯伯克利国家实验室 博士后
2004.01-2006.12 清华大学高分子所 博士后

获得奖励
孔雀计划B类人才,2017.1
作为主要完成人, 获得中国专利优秀奖,2018.12
作为主要完成人, 获得广东省科学技术进步一等奖,2011.1
作为主要完成人, 获得教育部自然科学奖二等奖,2008.1

学术任职
《储能科学与技术》杂志编委,2018.8
中国固态离子学会理事,2017.7
中国仪表功能材料学会储能与动力电池及其材料专业委员会委员,2018.8
深圳市电源技术学会专家委员会委员,2017.11
国家先进电池与材料产业集群专家,2019.8
中国能源学会专家委员会委员,2022.4

研究领域

主要研究兴趣是高能量密度电池及其关键材料的研发,研究重点是二次电池电解液、固态电解质、聚合物粘结剂和固态电池


教学

《材料化学》《大分子自主装》《电解质基础》


学术成果 查看更多

1. Wen S.J., Luo C., Wang Q.R., Wei Z.Y., Zeng Y.Y., Jiang Y.D., Zhang G.Z., Xu H.L., Wang J., Wang C.Y., Chang J.∗, Deng Y.H.*, Integrated design of ultrathin crosslinked network polymer electrolytes for flexible and stable all-solid-state lithium batteries,Energy Storage Materials, 2022, 47, 453-461. (IF=16.280)

2. Qian Y., Chu Y., Zheng Z., Shadike Z., Han B., Xiang S., Kang Y., Hu S., Cao C., Zhong L., Shi Q., Lin M., Zeng H., Wang J., Hu E., Weiland C., Yang X.-Q., Deng Y.H.*, A new cyclic carbonate enables high power/ low temperature lithium-ion batteries, Energy Storage Materials, 2022, 45, 14-23. (IF=16.280)

3. Chen Y., Jiang Y., Chi S.-S.*, Woo H. J.*, Yu K., Ma J., Wang J.*, Wang C., Deng Y.H.*, Understanding the lithium dendrites growth in garnet-based solid-state lithium metal batteries, J. Power Sources, 2022, 521, 230921. (IF=9.127)

4. Zhang G.Z., Deng X.L., Li J.W., Wang J., Shi G.L., Yang Y., Chang J., Yu K., Chi S.-C., Wang H., Wang P., Liu Z., Gao Y., Zheng Z.J. *, Deng Y.H. *, Wang C.Y. * A bifunctional fluorinated ether co-solvent for dendrite-free and long-term lithium metal batteries. Nano Energy, 2022, 95, 107014. (IF=17.8)

5. Han B., Zou Y. C., Xu G.Y., Hu S.G., Kang Y.Y., Qian Y.X., Wu J., Ma X.M., Yao J.Q., Li T.T., Zhang Z., Meng H., Wang H., Deng Y.H.*, Li J.*, Gu M.* Additive stabilization of SEI on graphite observed using cryo-electron microscopy. Energy & Environmental Science, 2021, 14, 4882. (IF=30.289)

6. Han B., Zou Y.C., Ke R.H., Li T.T., Zhang Z., Wang C.Y., Gu M.*, Deng Y.H.*, Yao J.Q.*, and Meng H.* Stable Lithium Metal Anodes with a GaOx Artificial Solid Electrolyte Interphase in Damp Air. ACS Appl. Mater. Interfaces, 2021, 13, 21467−21473. (IF=8.758)

7. Wu W., Wei Z.Y., Wang J., Shang J., Wang M., Chi S.S., Wang Q.R., Du L.L., Zhang T., Wang C.Y., Zheng Z.J., Deng Y.H.* Enabling High-Energy Flexible Solid-State Lithium Ion Batteries at Room Temperature. Chemical Engineering Journal, 2021, 24, 130335. (IF=10.652)

8. Han B., Yang X.M., Shi X. B., Meng H., Wang H., Xu K., Deng Y.H.*, Li J. *, Gu M. *. Probing Na-Metal Dendrites and Solid Electrolyte Interphase with Cryo-Transmission Electron Microscopy, Nature Commuications, March 13, 2021, 12, 3066. (IF=12.353)

9. Han B., Zhang Z., Zou Y.C., Xu K., Xu G.Y., Wang H., Deng Y.H. *, Li J. *, Gu M. *. Poor Stability of Li2CO3 in Solid Electrolyte Interphase of Li Metal Anode Revealed by Cryo-Electron Microscopy, Advanced Materials. 2021, 2100404. (IF= 27.398)

10. Xu H.L., Ye W., Wang Q.R., Han B. Wang J., Wang C.Y.,* Deng Y.H.,* In situ photopolymerized composite solid electrolyte from halloysite nanotube and comb-like polycaprolactone for high voltage lithium metal battery. Journal of Materials Chemistry A, March 15, 2021, 9, 9826–9836. (IF=11.301)

11. Qian Y.X., Chu Y.L., Zheng Z.T., Zulipiya Shadike, Han B., Xiang S.H., Kang Y.Y., Hu S.G., Cao C.W., Zhong L., Shi Q., Lin M.C., Zeng H.B., Wang J., Hu E.Y., Conan Weiland, Yang X.Q., Deng Y.H.* A new cyclic carbonate enables high power/ low temperature lithium-ion batteries. Energy Storage Materials, 2022, 45,14–23. (IF=16.280)

12. Chi S.S., Jiang Y.D., Wang Q.R., Ye Z.W., Yu K., Ma J., Jin J., Wang J., Wang C.Y., Wen Z.Y., Deng Y.H.* The liquid electrolyte modified interface between garnet-type solid-state electrolyte and lithium anode. Energy Storage Science and Technology, 2021,10(3), 914-924. (IF=1.826)

13. Luo C., Wu X.F., Zhang T., Chi S.S., Liu Z.Y., Wang J.*, Wang C.Y.*, Deng Y.H.* A Four-Armed Polyacrylic Acid Homopolymer Binder with Enhanced Performance for SiOx/Graphite Anode. Macromol. Mater. Eng. 2021, 306, 2000525. (IF=3.853)

14. Ma X., Feng D.Y., Xiao Y.L., Qian Y.X., Wang Q.R., Kang Y.Y., Xu D.W., Zhao H.J., Xu H.L., Yi H., Zheng J.X., Wang J.*, Wang C.Y.*, Deng Y.H.* Generating lithium fluoride-abundant interphase on layered lithium-rich oxide cathode with lithium 1,1,2,2,3,3-hexafluoropropane-1,3-disulfonimide. Journal of Power Sources, 2021, 507, 230278. (IF=8.247)

15. Ma X., Wang M., Qian Y.X., Feng D.Y., Zhang G.Z., Xu.D.W., Kang.Y.Y., Liu Z.B., Hu S.G., Zheng J.X., Wang J.*, Wang C.Y.*, Deng Y.H.* Poly (methyl vinyl ether-alt-maleic anhydride) as an ecofriendly electrolyte additive for high-voltage lithium-rich oxides with improved stability of interphase. Electrochimica Acta, 2021, 400, 139467. (IF=6.215)

16. Ma X., Zhang P., Zhao H.J., Wang Q.R., Zhang G.Z., Shang-Sen Chi, Liu Z.B., Qian Y.X., Wang J.*, Wang C.Y.*, Deng Y.H.* LiCoO2/Graphite Cells with Localized High Concentration Carbonate Electrolytes for Higher Energy Density. Liquids, 2021, 1, 60–74. (IF=6.165)

17. Zhao H.J., Qian Y.X., Luo G.F., Chang J., Wang C.Y., Wang J.*, Shao H.Y.*, Deng Y.H.* Cathode-anode reaction products interplay enabling high performance of LiNi0.8Co0.1Mn0.1O2/artificial graphite pouch batteries at elevated temperature. Journal of Power Sources, 514, 2021, 230583. (IF=8.247)

18. Zhao H.J., Wang J., Shao H.Y.*, Xu K.*, Deng Y.H.*. Gas Generation Mechanism in Li-Metal Batteries. Energy & Environmental Materials, 2021, 1–10 (IF=15.122)

19. Zhao H.J., Qian Y.X., Hu S.G., Luo G.F., Nie C.X., Qiu P.Q., Kang Y.Y., Wang H., Chu Y.L., Wang Q.R., Wang J., Shao H.Y.,* Xu K.,* Deng Y.H.* Tale of Three Phosphate Additives for Stabilizing NCM811/Graphite Pouch Cells: Significance of Molecular Structure−Reactivity in Dictating Interphases and Cell Performance. ACS Applied Materials & Interfaces. 2021, 13, 29676−29690 (IF=8.758)

20. An Y.N., Luo C., Yao D.H., Wen S.J., Zheng P.T., Chi S.S., Yang Y., Chang J.*, Deng Y.H.*, Wang C.Y.* Natural Cocoons Enabling Flexible and Stable Fabric Lithium-Sulfur Full Batteries. Nano-Micro Letters, 2021, 5, 204-217. (IF=12.264)

21. Lei Z.W., Shen J.L., Wang J., Qiua Q., Zhang G.Z., Chi S.S., Xu H.L., Li S., Zhang W.D. Zhao Y.S., Deng Y.H.*, Wang C.Y.*, Composite polymer electrolytes with uniform distribution of ionic liquid-grafted ZIF-90 nanofillers for high-performance solid-state Li batteries, Chemical Engineering Journal, 2021, 412, 128733 (IF=10.652)

22. Wei Z.Y., Zhang T., Wang M., Wu W., Wang J., Li S., Zhao Y.S., Wang C.Y., Yao X.Y.*, Xu X.X.*, Deng Y.H.* Formation of Excellent Cathode/Electrolyte Interface with UV-cured Polymer Electrolyte through in-situ Strategy. Journal of the Electrochemical Society, 2021, 168, 020511 (IF=3.721)

23. Han B., Xu D.W., Chi S.S., He D.S., Zhang Z., Du L.L., Gu M., Wang C.Y., Meng H., Xu K., Zheng Z.J.,* Deng Y.H.* 500 Wh/Kg Class Li Metal Battery Enabled by Self-Organized Core-Shell Composite Anode. Advanced Materials, 2020, 32, 2004793. (IF=27.398)

24. Xiao Y.L., Han B., Zeng Y., Chi S.S., Zeng X.Z., Zheng Z.J., Xu K.*, Deng Y.H.* New Lithium Salt Forms Interphases Suppressing Both Li Dendrite and Polysulfide Shuttling. Advanced Energy Materials, 2020, 14, 19003937. (IF=25.245)

25. Zhang G.Z., Yang Y., Zhang T., Xu D.W., Lei Z.W., Wang Y., Liu G., Deng Y.H.* FeIII chelated Organic Anode with Ultrahigh Rate Performance and Ultra-Long Cycling Stability for Lithium-Ion Batteries. Energy Storage Materials, 2020, 24, 432-438. (IF=16.280)

26. Wu W., Wang M., Wang J., Wei Z.Y., Zhang T., Chi S.S., Wang C.Y., Deng Y.H.* Transition Metal Oxides as Lithium-Free Cathodes for Solid-State Lithium Metal Batteries. Nano Energy, 2020, 74, 104867. (IF=15.548)

27. Han B., Feng D.Y., Li S., Zhang Z., Zou Y. C., Gu M., Meng H., Wang C.Y., Xu K., Zhao Y.S.,* Zeng H.B.,* Wang C.S.,* Deng Y.H.* Self-Regulated Phenomenon of Inorganic Artificial SEI for Lithium Metal Batteries. Nano Letters, 2020, 5, 4029-4037. (IF=12.940)

28. Chi S.S., Wang Q.R., Han B., Luo C., Jiang Y.D., Wang J., Wang C. Y., Yu Y.*,Deng Y.H.* Lithiophilic Zn Sites in Porous CuZn Alloy Induced Uniform Li Nucleation and Dendrite-Free Li Metal Deposition. Nano Letters, 2020, 20, 2724-2732. (IF=12.940)

29. Wang H., Yang Y., Zheng P.T., Wang Y.Y., Ng Sze-Wing, Chen Y.K., Deng Y.H.*, Zheng Z.J., Wang C.Y.* Water-based Phytic Acid-Crosslinked Supramolecular Binders for Lithium-Sulfur Batteries. Chemical Engineering Journal, 2020, 395,124981. (IF=10.652)

30. Zhang G.Z., Wang H., Deng X.L., Yang Y., Zhang T., Wang J.*, Zeng H.B., Wang C.Y.*, Deng Y.H.* Metal chelation based supramolecular self-assembly enables a high-performance organic anode for lithium ion batteries. Chemical Engineering Journal, 2020, DOI: 10.1016/j.cej.2020.127525 (IF= 10.652)

31. Qian Y.X., Kang Y.Y., Hu S.G., Shi Q., Chen Q., Tang X.W., Xiao Y.L., Zhao H.J., Luo G.F.*, Xu K.* Deng Y.H.*. Mechanism Study of Unsaturated Tripropargyl Phosphate as An Efficient Electrolyte Additive Forming Multifunctional Interphases in Lithium Ion and Lithium Metal Batteries. ACS Applied Materials & Interfaces, 2020, 12, 9, 10443-10451. (IF=8.758)

32. Yi H., Yang Y., Zhang T., Xiang S.H., Tang T., Zeng H.B., Wang C.Y., Cao Y.L., Deng Y.H.* Water-Based Dual-Cross-Linked Polymer Binders for High-Energy-Density Lithium-Sulfur Batteries. ACS Applied Materials & Interfaces, 2020, 12, 29316-29323. (IF=8.758)

33. Yao D.H., Feng J.W., Wang J. *, Deng Y.H.*, Wang C.Y.* Synthesis of Silicon Anode Binders with Ultra-High Content of Catechol Groups and the Effect of Molecular Weight on Battery Performance. Journal of Power Sources, 2020, 463, 228188. (IF=8.247)

34. Wu W., Kang Y.Y., Wang M., Xu D.W., Wang J.*, Cao Y.L., Wang C.Y.*, Deng Y.H.* An Ultrahigh-Areal-Capacity SiOx Negative Electrode for Lithium-Ion Batteries. Journal of Power Sources, 2020, 464, 228244. (IF=8.247)

35. Lei Z.W., Shen J.L., Zhang W.D., Wang Q.R., Wang J.*, Deng Y.H.*, Wang C.Y.* Exploring Porous Zeolitic Imidazolate Frame Work-8 (ZIF-8) as An Efficient Filler for High-Performance Poly (ethyleneoxide)-Based Solid Polymer Electrolytes. Nano Research, 2020, 13, 2259-2267. (IF=8.183)

36. Wu W., Wang M., Wang J.*, Wang C.Y. *, Deng Y.H. * Green Design of Si/SiO2/C Composites as High-Performance Anodes for Lithium-Ion Batteries. ACS Applied Energy Materials, 2020, 3, 3884-3892. (IF=4.473)

37. Ye W., Zaheer M., Li L., Wang J., Xu H.*, Wang C.Y.*, Deng Y.H.* Hyperbranched PCL/PS Copolymer-Based Solid Polymer Electrolytes Enable Long Cycle Life of Lithium Metal Batteries. Journal of the Electrochemical Society, 2020, 167, 110532. (IF=3.721)

38. Guo J.P., Wu W., Wang J. *, Zhang T., Wang R., Xu D.W., Wang C.Y.*, Deng Y.H.* Artificial Solid Electrolyte Interphase Modified Porous SiOx Composite as Anode Material for Lithium Ion Batteries. Solid State Ionics, 2020, 347, 115272. (IF=3.107)

39. Wang H., Wang Y.Y., Zheng P.T., Yang Y.*, Chen Y.K., Cao Y.L., Deng Y.H.*, Wang C.Y.* Self-Healing Double-Cross-Linked Supramolecular Binders of a Polyacrylamide-Grafted Soy Protein Isolate for Li–S Batteries. ACS Sustainable Chemistry & Engineering, 2020, 8, 12799-12808. (IF=7.632)

40. Kang Y.Y., Wang J., Wang M., Tang X., Cao Z.Z., Wang C.Y., Shi Q., Qian Y.X.*, Deng Y.H.* Multifunctional Fluoroethylene Carbonate for Improving High-Temperature Performance of LiNi0.8Mn0.1Co0.1O2||SiOx@Graphite Lithium-Ion Batteries. ACS Applied Energy Materials, 2020, 3, 9989-10000. (IF=4.473)

41. Wei Z.Y., Deng Y.H.*, Yu M.M., Yu H.F.* Sunlight Helps Self-Healing of Liquid-Crystalline Gels of Lignin-Graft PMMA Doped with GO and Azobenzene. Liquid Crystals, 2020, 1, 1170-1179. (IF=2.908)

42. Xu H.L., Xie J.B., Liu Z.B., Wang J.*, Deng Y.H.* Carbonyl-Coordinating Polymers for High-Voltage Solid-State Lithium Batteries: Solid Polymer Electrolytes. MRS Energy & Sustainability, 2020, 7, E2.

43. Feng J.W., Yi H., Lei Z.W., Wang J.*, Zeng H.B., Deng Y.H.*, Wang C.Y.* A Three-Dimensional Crosslinked Chitosan Sulfate Network Binder for High-Performance Li-S Batteries. Journal of Energy Chemistry, 2020, 07, 060. (IF=7.216)

44. Feng J.W., Ao X.H., Lei Z.W., Wang J., Deng Y.H., Wang C.Y., Hollow nanotubular clay composited comb-like methoxy poly(ethylene glycol) acrylate polymer as solid polymer electrolyte for lithium metal batteries, Electrochimica Acta 2020, 340, 135995 (IF=6.215)

45. Feng J.W., Hu S.G, Han B., Xiao Y.L., Deng Y.H.*, Wang C.Y.* Research progress of electrolyte optimization for lithium metal batteries. Energy Storage Science and Technology, 2020, (6), 1629-1640. (IF=1.826)

46. Yi H., Lan T., Yang Y., Zeng H.B., Zhang T., Tang T., Wang C.Y.*, Deng Y.H.* A Robust Aqueous-Processable Polymer Binder for Long-Life, High-Performance Lithium Sulfur Battery. Energy Storage Materials, 2019, 21, 61-68. (IF=16.280)

47. Qian Y.X., Hu S.G., Zou X.S., Deng Z. H., Xu Y. Q., Cao Z.Z., Kang Y.Y., Deng Y. F., Shi Q., Xu K., Deng Y.H.* How Electrolyte Additives Work in Li-ion Batteries. Energy Storage Materials, 2019, 20, 208-215. (IF=16.280)

48. Wei Z.Y., Zhang Z.H., Chen S.J.,* Yao X.Y., Deng Y.H.,* Xu X.X.* UV-cured Polymer Electrolyte for LiNi0.85Co0.05Al0.1O2//Li Solid State Battery Working at Ambient Temperature. Energy Storage Materials, 2019, 22, 337-345. (IF=16.280)

49. Zhao H., Yu X., Li J., Li B., Shao H.,* Li L.,* Deng Y.H.* Film-forming Electrolyte Additives for Rechargeable Lithium-ion Batteries: Progress and Outlook. Journal of Materials Chemistry A, 2019, 15, 8700-8722. (IF=11.301)

50. Chen S.,* Wang J., Wei Z., Zhang Z., Deng Y.H., Yao X., Xu X.* One-pot Synthesis of Crosslinked Polymer Electrolyte Beyond 5V Oxidation Potential for All-Solid-State Lithium Battery. Journal of Power Sources, 2019, 431, 1-7. (IF=8.247)

51. Xu D.W., Kang Y.Y., Wang J., Hu S.G., Shi Q., Lu Z.G., He D.S., Zhao Y.F., Qian Y.X., Lou H.M.,* Deng Y.H.,* Exploring Synergetic Effects of Vinylene Carbonate and 1,3-propane Sultone on LiNi0.6Mn0.2Co0.2O2/graphite Cells with Excellent High-Temperature Performance. Journal of Power Sources, 2019, 437, 226929. (IF=8.247)

52. Wu X.F., Luo C., Du L.L., Deng Y.H.* et al. Exploiting Pulping Waste as an Ecofriendly Multifunctional Binder for Lithium Sulfur Batteries. ACS Sustainable Chemistry & Engineering, 2019, 9, 8413-8418. (IF=7.632)

53. Ye Q.Q., Zheng P.T., Ao X.H., Yao D.H., Lei Z.W., Deng Y.H.,* Wang C.Y.* Novel Multi-Block Conductive Binder with Polybutadiene for Si Anodes in Lithium-ion Batteries. Electrochimica Acta, 2019, 315, 58-66. (IF=6.215)

54. Xiao Y.L., Zeng Y., Zeng H.B., Zhang W.J.,* Tian B.B.,* Deng Y.H.,* Nitrogen, Oxygen and Cobalt Multiple-Doped Graphitized Mesoporous Carbon as a Cost-Effective Carbon Host with High Sulfur Content for Lithium-Sulfur Batteries. Journal of Alloys and Compounds, 2019, 787, 1356-1364. (IF=4.650)

55. Kang Y.Y., Wang J., Du L.L., Liu Z.B., Zou X.S., Tang X.W., Cao Z.Z., Wang C.Y., Qian Y.X.,* Deng Y.H.,* Overcharge Investigations of LiCoO2/Graphite Lithium Ion Batteries with Different Electrolytes. ACS Applied Energy Materials, 2019, 12, 8615-8624. (IF=4.473)

56. Zaheer M., Xu H., Wang B., Li L., Deng Y.H.* An in Situ Polymerized Comb-Like PLA/PEG-based Solid Polymer Electrolyte for Lithium Metal Batteries. Journal of The Electrochemical Society, 2019, 167, 070504. (IF=3.721)

57. Du L., Wu W., Luo C., Xu D.W., Guo H.Y., Zhang T., Wang J., Deng Y.H.* Lignin-Derived Nitrogen-Doped Porous Carbon as a High-Rate Anode Material for Sodium Ion Batteries. Journal of the Electrochemical Society, 2019, 166, A423-A428. (IF=3.721)

58. Yao D.H., Xu H.L., Wang C.Y., Deng Y.H.* Interpretation of the Electrode Binder Standard for Lithium Ion Battery. Energy Storage Science and Technology, 2019, 8, 419-427. (IF=1.826)

59. Yao D.H., Yang Y., Deng Y.H.*, Wang C.Y.* Flexible polyimides through one-pot synthesis as water-soluble binders for silicon anodes in lithium ion batteries. Journal of Power Sources, 2018, 379, 26-32. (IF=8.247)

60. Han B., Yang Y., Shia X.B, Zhang G.Z., Gong L., Xu D.W., Zeng H.B., Wang C.Y., Gua M., Deng Y.H.* Spontaneous Repairing Liquid Metal/Si Nanocomposite as a Smart Conductive-Additive-Free Anode for Lithium-ion Battery, Nano Energy, 2018, 50, 359-366. (IF=16.602)

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南方科技大学邓永红课题组诚聘博士后研究人员
南方科技大学材料科学与工程系先进聚合物能源材料实验室成立于2016年,目前实验室成员有四十多人。主要从事锂电池及其关键材料的开发,包括锂离子电池电解液、固态电解质、硅负极粘结剂、固态电池和锂硫电池等。研究亮点有:开发新型电解质,推进固态电池的研发与应用;揭示电解质/电极界面的SEI结构,解密锂离子电池的失效机制;解决锂枝晶关键问题,助力下一代超高能量密度锂金属电池的实现。根据科研需求,招聘博士后数名,招聘有效期:长期。
1、研究方向
主要从事锂电池及其关键材料的开发,包括锂离子电池电解液、固态电解质、硅负极粘结剂、固态电池和锂硫电池等。
2、岗位职责
(1) 参与课题组相关项目的研究工作;
(2) 完成课题研究,发表高水平学术论文;
(3) 协助团队项目申报,鼓励申请相关领域项目;
(4) 参与实验室平台建设;
(5) 协助指导研究生等
3、岗位要求
(1) 相关领域博士学位;
(2) 有扎实的化学、材料科学与电化学基础;
(3) 以第一作者在相关领域国际高水平期刊上发表过2篇及以上学术论文;
(4) 年龄35周岁以下,具有良好的科学素养、事业心、责任感和团队协作精神;
(5) 具有良好的英文阅读、写作和口头交流能力。
4、拟聘人员薪资福利待遇
提供具有竞争力的薪资和福利。
 
5、应聘材料:
(1)详细个人简历,含学习、工作和科研经历,主要科研成果介绍(如论文论著、成果证书或奖励),及其他可以证明工作能力的材料;
(2)提供身份证、毕业证及学位证(或所在院校相关主管部门盖章的博士学位答辩决议)扫描件或复印件;
(3)提供2-3封推荐信及推荐人的姓名以及有效联系方式(需提供博士导师的联系方式)。
申请截止日期:长期。
申请联系人:王军 研究副教授 wangj9@sustech.edu.cn
同时课题组也欢迎有兴趣的学生来课题组学习,联系方式:李老师,邮箱:lihy3@mail.sustech.edu.cn
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