邓永红
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个人简历
教育背景\r2000.9-2003.12 清华大学 材料科学与工程 博士\r1997.9-2000.6 华南理工大学 材料学 硕士\r1986.9-1990.6 湘潭大学 化学工程 学士\r工作经历\r2016.06-至今 南方科技大学 副教授岗位/教授职称\r2014.09-2016.06 华南理工大学 教授、博导\r2008.12-2014.08 华南理工大学 副教授\r2007.01-2008.08 美国劳伦斯伯克利国家实验室 博士后\r2004.01-2006.12 清华大学高分子所 博士后研究领域
"""""1.锂离子电池电解液\r2.固态电解质及固态电池\r3.硅碳负极及其粘接剂\r4.锂硫电池等下一代电池材料开发"近期论文
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 Letter.2020.\r\rHan 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.2019.\r\rQian 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, 9(12), 10443-10451. https://pubs.acs.org/doi/10.1021/acsami.9b21605\r\rFeng 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, 340 (2020) 135995. DOI: 10.1016/j.electacta.2020.135995. https://www.sciencedirect.com/science/article/pii/S001346862030387X?via%3Dihub\r\rXiao 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(10) ,1903937. https://onlinelibrary.wiley.com/doi/full/10.1002/aenm.201903937\r\rChi 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(4)2724-2732. https://pubs.acs.org/doi/10.1021/acs.nanolett.0c00352\r\rGuo 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.\r\rWei 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,Jan 2020, DOI:10.1080/02678292.2019.1706111.\r\rZaheer M., Xu H., Wang B., Li L., Deng Y. *.An in situ polymerized comb-like PLA/PEG-based solid polymer electrolyte for lithium metal batteries Journal of The Electrochemical Society, 7(167), 2019, 070504.\r\rZhang G. Z., Yang Y., Zhang T., Xu D. W., Lei Z. W., Wang Y., Liu G., Deng Y. H. * Fe III chelated Organic Anode with Ultrahigh Rate Performance and Ultra-long Cycling Stability for Lithium-Ion Batteries. Energy Storage Materials.2019.07.018.\r\rKang 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, 2(12) 2019, 8615-8624.\r\rWei 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.\r\rYang Y., Ng S. W., Chen D., Chang J., Wang D., Shang J., Huang Q., Deng, Zheng Z. J. *, Freestanding Lamellar Porous Carbon Stacks for Low Temperature Foldable Supercapacitors, Small 2019, 1902071.\r\rQian 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.\r\rXu 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, (437) 2019, 226929.\r\rYi 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,.\r\rYe 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.\r\rChen S. *, Wang J., Wei Z., Zhang Z., Deng Y., 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.\r\rXiao 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, 787 (2019) 1356-1364.\r\rWu 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 Sustain Chem & Eng, 2019,7(9):8413-8418. 相关热点
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