澳门沙金网址js500/实验中心 2020-02-25 10:54:00 来源:澳门沙金网址js500 点击: 收藏本文
基本情况
姓名: 曾荣华
性别: 男
学位:博士
职称:研究员
研究生培养:博士生导师(物理化学),硕士生导师(物理化学、材料与化工)
联系方式
邮箱:zengronghua@m.scnu.edu.cn
教育经历
2012.7澳门沙金,化学与环境学院,博士;
2005.7 澳门沙金,化学与环境学院,硕士;
2000.7.澳门沙金,化学系,学士。
工作经历
2005.9-至今 澳门沙金,澳门沙金网址js500。
2013.05-2015.12,华南理工大学与东莞市迈科科技有限公司联合培养博士后。
讲授课程
研究生课程:物理化学进展;
本科生课程:材料科学基础实验;无机非金属材料化学实验;应用物理化学实验。
科/教研方向
电化学(包括锂/钠离子电池等)。
负责的平台基地
广东省国际科技合作基地-储能材料国际联合研究中心,主任。
主持的课题项目
1、 国家基金面上项目(21875076),2019.01-2022.12;
2、 广州市重点研发计划项目(2023B03J1278),2023.04-2026.03;
3、 广东省科技计划项目(国际合作项目)(2018A050506077),2018,12-2021,05;
4、 广东省科技计划项目(国际合作项目)(2016A050502054),2016.01-2017.12;
5、 广东省科技计划项目(广东省协同创新与平台环境建设专项项目)(2015A040404043),2015.01-2016.12;
6、 中国博士后基金项目,(2014M552190),2014.05-2015.12;
7、 广州市科技计划项目,(201609010096), 2016.07-2017.12;
8、 广东省科技特派员项目,(GDKTP2020021500),2020.10-2021.12。
获奖/荣誉
1、 指导本科生获第12届国家挑战杯(小挑)银奖1项(2020,11),独立指导老师;
2、 指导本科生获第15届国家挑战杯(大挑)一等奖1项(2017.11),第一指导老师;
3、 获第15届国家挑战杯优秀指导老师称号(2017.11);
4、 指导本科生参加第十届全国大学生创新创业年会交流入选作品奖1项(2017.11),独立指导老师;
5、 指导本科生获第14届省挑战杯(大挑)特等奖1项(2017.06),独立指导老师;
6、 指导本科生获第12届省挑战杯(小挑)金奖1项(2020,07),第一指导老师;
7、 指导本科生获广东省第九届中国国际“互联网+”大学生创新创业大赛铜奖1项(2023,07),第一指导老师。
代表性论文/论著
代表性论文(通讯作者及第一作者):
2023
[1] Z.Q. Fan#, X.Z. Zhou#, J.W. Qiu, Z. Yang, C.X. Lei, Z.Q. Hao, J.H. Li,* L. Li,* R.H. Zeng,* S.-L. Chou*,Sulfur-rich additive-induced interphases enable highly stable 4.6 V LiNi0.5Co0.2Mn0.3O2 | | graphite pouch cells, Angew. Chem. Int. Ed. 2023, e202308888.
[2] Y.W. Wu,# M.J. Lai,# J.F. Liang, J.Y. Liang, D.Y. Zhang, R.H. Zeng,* J.H. Li, Z.G. Xu, P. Chuangchanh, M. Du, X.-L. Wu*, Advanced 1D metal−organic coordination polymer for lithium-ion batteries: designing, synthesis, and working mechanism, ACS Appl. Mater. Interfaces, 2023, 15, 1452−1462.
[3] S.-H. Zheng, X.-T. Wang, Z.-Y. Gu, H.-Y. Lü*, X.-Y. Zhang, J.-M. Cao, J.-Z. Guo, X.-T. Deng, Z.-T. Wu, R.-H. Zeng*, X.-L. Wu*, Direct and rapid regeneration of spent LiFePO4 cathodes via a high-temperature shock strategy, J. Power Sources 2023, 587, 233697.
[4] J. Guo,# J.H. Li,# Z.Q. Fan, J.W. Qiu, H.P. Ye, J.F. Liang, J.Y. Liang, R.H. Zeng,* Y.P. Cai*, Rationally designing cathode interphase chemistry via electrolyte additives for high-voltage batteries, ACS Appl. Energy Mater, 2023, 6, 2448-2461.
[5] Y.L. Li#, Z.Q. Fan#, Z.J. Peng#, Z.H. Xu, X.Y. Zhang, J.-E. Zhou, X.M. Lin*, Z.Y. Wu, E.Y. Zhao#, R.H. Zeng*, Metal–organic framework-derived LiFePO4/C composites for lithium storage: In situ construction, effective exploitation, and targeted restoration, EcoMat. 2023, e12415.
[6] M.J. Lai#, D.Y. Zhang#, F.H. Chen, X.Y. Lin, A.K. Qiu, C.X. Lei, J.Y. Liang, J.F. Liang, J.H. Li, Q.F. Wang, R.H. Zeng*, Advanced metal-organic frameworks based on anthraquinone-2,3-dicarboxylate ligands as cathode for lithium-ion batteries, Batteries 2023, 9, 247.
2022
[1] X.Y. Yang,# H. Deng,# J.F. Liang, J.Y. Liang, R.H Zeng,* R.R. Zhao, Q. Chen, M.Z. Chen, Y.F. Luo,* S.L. Chou*, Facile Synthesis of a LiC15H7O4/Graphene Nanocomposite as a High-Property Organic Cathode for Lithium-Ion Batteries, ACS Appl. Mater. Interfaces, 2022, 14, 56808−56816.
[2] R.H. Zeng,*,# Y.W. Wu,# S.H. Qian, L. Li, H. Zhang, Q. Chen, Y.F. Luo,* S.-L. Chou*, Graphene-Supported Naphthalene-Based Polyimide Composite as a High-Performance Sodium Storage Cathode, ACS Appl. Mater. Interfaces, 2022, 14, 11448−11456.
[3] Dan Li, G.Z. Lin, Z.X. Huang, X. Y. Tang, Z.J. Wu, Z.X. Li, D.Y. Zhang, P. Chuangchanh, R. H. Zeng*, Effect of different shell structure on lithium storage properties of MoS2 anode, J. Electroanal. Chem., 2022, 905:115972.
2021
[1] M. M. Feng, R. H. Zeng*, S.-L. Chou, F. L. Gu*, Enhancing the understanding of the redox properties of lithium-inserted anthraquinone derivatives by regulating molecular structure, J. Electroanal. Chem., 2021,887:115172.
[2] F.H. Chen, Y.W. Wu, H.H. Zhang, Z.T. Long, X.X. Lin, M.Z. Chen, Q. Chen, Y.F. Luo, S.-L. Chou, R.H. Zeng*, The Modulation of discharge plateau of benzoquinone for sodium-ion batteries, Int. J. Min. Met Mater., 2021, 28(10):1675-1683.
2020
[1] Y.W. Wu, X.J. Chen, G.Z. Lin, X.X. Zhu, J.W. Qiu, Y.F. Luo, Z.G. Xu, Q. Chen, V. Ganesh, R. H. Zeng*, C14H6O4Na2/graphene composite as a high performance sodium storage cathode, J. Electroanal. Chem., 2020,877:114749.
[2] Y.W. Wu, G.Z. Lin, X.M. Zhou, J. Chen, J.Y. Zhuang, Q. Chen, Y.F. Luo, D.S. Lu, V. Ganesh, R. H. Zeng*, Exploring structural stability mechanism of TiO2 encapsulated in 3Dflower-like SnS2 anode for lithium ion batteries, J. Electroanal. Chem., 2020,857:113740.
2019
[1] Y.J. Ye, Z.X. Li, J.X. Pan, G.Z. Lin, Z.S. Zhu, R.T. Ye,Y.F. Luo, V. Ganesh, R.R. Zhao, D. Shu, R. H. Zeng*, Enhanced lithium storage properties achieved by TiO2 reinforced 2D CuO clusters, Sustain. Mater. and Techno., 2019, 21: e00097.
2017
[1] 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., 2017,7,1700278.
2016
[1] X.J. Chen,Y.W. Wu, Z.K. Huang, X.Y. Yang, W.J. Li, L. C. Yu, R. H. Zeng*, Y.F Luo*, S.-L. Chou*, C10H4O2S2/graphene composite as a cathode material for sodium-ion batteries. J. Mater. Chem. A, 2016, 4,18409–18415.
[2] Y.Q. Zhang, Y.W. Wu, Y.H. Chu, L. Li, Q.P. Yu, Y.F. Zhu, G. Liu, Q. Hou, R. H. Zeng*, L.Z. Zhao*, Self-assembled Co3O4 nanostructure with controllable morphology towards high performance anode for lithium ion batteries, Electrochim. Acta, 2016, 188: 909–916.
[3] Y.F. Zhu, Y.H. Chu, J.H. Liang, Y.S. Li, Z.L. Yuan, W.T. Li, Y.Q. Zhang, X.X. Pan, S. L. Chou, L.Z. Zhao*, R. H. Zeng*, Tucked flower-like SnS2/Co3O4 composite for high-performance anode material in lithium-ion batteries, Electrochim Acta, 2016,190: 843–851.
[4] Z.F. Chen, B. He, J. Zhou, D.H. He*, J.D. Deng, R. H. Zeng*, Chemical compositions and antibacterial activities of essential oilsextracted from Alpinia guilinensis against selected foodbornepathogens, Industrial Crops and Products , 2016, 83: 607–613..
[5] M.X. Lv, F. Zhang, Y.W. Wu, M.J. Chen, C.F. Yao, J.M. Nan, D. Shu, R. H. Zeng*, H.P. Zeng*, S.-L. Chou*, Heteroaromatic organic compound with conjugated multi- carbonyl as cathode material for rechargeable lithium batteries, Sci. Rep., 2016, 6:23515.
[6] X.Y. Yang, Z.Y. Liu, X.D. Chen, W.B. Wang, X.J. Chen, Z.L. Yuan, H.B. Zhou, R. H. Zeng*, Y.F. Luo*, Preparation and performance of Li4C10H4O8 with multi-carboxyl groups as anode material for lithium-ion batteries, J. Electroanal. Chem., 2016, 782, 202–206.
2015
[1] W. T Li, K. N. Shang, Y. M. Liu, Y. F. Zhu, R. H. Zeng*, L. Z. Zhao, Y. W. Wu, L. Li, Y. H. Chu, J.H. Liang, G. Liu, A novel sandwich-like Co3O4/TiO2 composite with greatly enhanced electrochemical performance as anode for lithium ion batteries, Electrochim Acta, 2015, 174:985-991.
[2] K. N. Shang, W. T Li, Y. M. Liu, W. G. Zhang , H. Yang, J.Q. Xie, Z.Y. Liu, S-L. Chou, L.Z. Zhao*, R. H. Zeng*, A novel shuttle-like Fe3O4 –Co3O4 self-assembling architecture with highly reversible lithium storage, RSC Adv., 2015, 5,70527-70535.
2014
[1] W. T. Li, L. Z. Zhao, Y.Y. Tian, Y. X. Gong, X.T. Huang, Z.Y. Cui, R. H. Zeng*, Superfine TiO2/SnO2/Carbon Hybrid Nanocomposite with Greatly Enhanced Electrochemical Properties, Electrochim. Acta, 2014, 147:603-609.
[2] R. H. Zeng, L. D. Xing, Y. C. Qiu, Y. T. Wang, W. N. Huang, W. S. Li*, S. H. Yang*, Polycarbonyl(quinonyl) organic compounds as cathode materials for sustainable lithium ion batteries, Electrochim. Acta,2014, 146:447-454.
[3] Q. P. Yu, D. R. Chen, J. H. Liang, Y. H. Chu, Y. W. Wu, W. G. Zhang, Y. S. Li, L. Li, R. H. Zeng*, Facile synthesis of Li2C8H4O4-graphene composites as high-rate and sustainable anode materials for lithium ion batteries, RSC Adv, 2014,4(103):59498-59502.
2011
[1] R. H. Zeng, G. Peng, Y.C. Qiu, S.R. Zheng, W.S. Li*, W.X. Zhang, H. Deng, Y.P. Cai. Synthesis, crystal structures and properties of Ln(III)–Cu(I)–Na(I) and Ln(III)–Ag(I) heterometallic coordination polymers,CrystEngComm., 2011, 13:3910–3919.
2010
[1] R. H. Zeng, X.P. Li, Y.C. Qiu, W.S. Li*, J. Yi, D.S. Lu, C.L. Tan, M.Q. Xu. Synthesis and properties of a lithium-organic coordination compound as lithium-inserted material for lithium ion batteries. Electrochem. Commun., 2010, 12:1253–1256.
2007
[1] R. H. Zeng, W.S. Li*, D.S. Lu, Q.M. Huang. A study on insertion/removal kintics of lithium ion in LiCrxMn2-xO4 by using powder microelectrode. J. Power Sources, 2007,174:592-597.
授权发明专利:
[1]曾荣华,陈凤花,蒽醌-2,3-二羧酸钙配位聚合物作为锂离子电池正极材料的应用,授权号:ZL 202011417433.9,授权公告日:2022.08.19.
[2]曾荣华,巫艺文,一种1,5-二羟基蒽醌铜配位聚合物/石墨烯复合物及制备与应用,授权号:ZL 202010258764.6,授权公告日:2021.11.30.
[3]曾荣华,李健辉,一种锂盐电解液添加剂和含有该添加剂的电解液及锂离子电池,授权号::ZL 202011021438 X, 授权公告日:2021.12.14.
[4] 曾荣华,叶永键,李卓羲,巫艺文,一种二氧化钛-氧化铜纳米复合物及其制备方法和应用,授权号:ZL 201710906624.3,授权公告日:2020.09.25.
[5]曾荣华,杨小云,巫艺文,罗一帆,一种蒽醌-2-羧酸钴盐及其制备方法和应用,授权号:ZL201710717647.X,授权公告日:2020.08.25.
[6] 曾荣华,南俊民,舒东,一种对苯二甲酸锂-石墨烯复合物及制备与用, 授权号ZL 201610889901.X,授权公告日2019.5.31。
[7] 曾荣华,舒东,南俊民,一种羰基共轭杂环化合物及制备与应用,授权号ZL 201610889904.3,授权公告日2018.10.23。
[8] 曾荣华,杨小云,陈小菊,罗一帆,发明专利,一种蒽醌-2-羧酸锂-石墨烯纳米复合物及制备与应用,授权公告号ZL 201610474189.7,授权公告日2018.06.28.
[9] 曾荣华,李伟善,黄启明,发明专利,“废旧碱性锌锰电池正极材料再生方法,” 专利号:ZL200710026647.1,授权公告日:2009.07.01.
出版著作:
主编《企业节能减排科普读本(高能耗行业)》,化学工业出版社,2018, 8出版。
标签:#荣华