胡仁宗
教授、博士生导师
电话:87112762
教育与工作经历:
教育经历:
2001/09-2005/07,大连理工大学,材料工程系,材料成型与控制工程,学士
2005/09-2007/07,华南理工大学,机械工程学院,材料加工工程,硕士(提前攻博)
2007/09-2011/06,华南理工大学,材料科学与工程学院,材料加工工程,博士
研究经历:
2011/07-2013/02,华南理工大学,材料科学与工程学院金属材料系,讲师
2013/03-2016年8月,华南理工大学,材料科学与工程学院金属材料系,副教授(破格晋升)
2014/10-2015/11 美国佐治亚理工学院(Georgia Tech),材料科学院与工程学院,访问学者
2016/09-至今,华南理工大学,材料科学与工程学院金属材料系,教授(破格晋升)
科研与教学情况:
教学:
1.本科生课程:《机械工程材料》(国家精品课程)、《材料近代测试综合实验》(材料类创新班)
主要研究方向:
1.锂离子电池、高容量金属基储锂负极材料结构与性能调控
2. 新型电化学储能体系与器件、材料电化学反应体系的原位表征与分析
在研(主持)科研项目:
1.国家自然科学基金面上项目(2017-2020):嵌锂SnO2负极材料的纳米Sn粗化抑制与转化反应的可逆性
2. 国家重点研发计划《高效纳米储能材料与器件的基础研究》(2016-2021):电极微纳结构与表界面的原位表征及演化规律
3. 广州市科技计划项目(2017-2019):Sn基负极材料在全电池应用中的首次库仑效率与循环稳定性
4. 中央高校基本科研业务费(2017-2018): 锂离子电池Si基负极材料的微纳结构调控与可逆储锂性能
5. 企业委托技术开发项目(2017-2018):锂离子动力电池二次利用的热管理与失效材料分析
获得荣誉和奖励:
2012年度广东省优秀博士学位论文奖
2013年广东省科学技术奖一等奖
2016年入选“广东特支计划” 科技创新青年拔尖人才.
近年来发表的部分学术论文:
主要从事高性能锂离子电池材料的基础理论与应用研究。 截止目前,在Adv. Mater., Acta Mater., Energy Environ. Sci., Adv. Energy Mater., Adv. Funct. Mater., ACS Nano, Nano Energy, J. Mater. Chem., J. Power Sources等知名学术期刊上发表SCI论文60余篇;其中ESI 高被引论文5篇,SCI引用1500余次,h=25;获授权国家发明专利4项。
代表性论文:
1.X.J. Xu, J. Liu*, J.W. Liu, L.Z. Ouyang, R.Z. Hu*, H. Wang, L.C. Yang, M. Zhu, A General MOF-Derived Selenidation Strategy for In-Situ Carbon-Encapsulated Metal Selenides as High-Rate Anodes for Na-Ion Batteries, Advanced Functional Materials, 2018, 28,1707573.
2.H.Y. Zhang, R. Z. Hu*, Y.X. Liu, J.W. Liu, Z.C. Lu, M.Q. Zeng, L.C. Yang, J. Liu, M. Zhu, Highly reversible conversion reaction in Sn2Fe@SiOx nanocomposite: a high initial Coulombic efficiency and long lifetime anode for lithium storage, Energy Storage Materials, 2018, 16,257-266.
3.R.Z. Hu, H.P. Zhang, Z.C. Lu, J. Liu, M.Q. Zeng, L.C.Yang, B. Yuan, M. Zhu*, Unveiling critical size of coarsened Sn nanograins for achieving high round-trip efficiency of reversible conversion reaction in lithiated SnO2 nanocrystals, Nano Energy, 2018, 45,255-265. (IF=12.343)
4. H.P Zhang, Z.W. Chen, R.Z. Hu*, J. Liu, J. Cui, W.J. Zhou, C.H Yang, Enabling highly reversible conversion reaction in a lithiated nano-SnO2 film coated with atomic layer deposition Al2O3, Journal of Materials Chemistry A, 2018,6,4374-4385.
5. T. Liang, R.Z. Hu*, H.P. Zhang, H.Y. Zhang, H. Wang, Y.P. Ouyang, J.Liu, L.C. Yang, and M. Zhu, A New Scalable Ternary SnO2-Co-C Composite as a High Initial Coulombic Efficiency, Large Capacity and Long Lifetime Anode for Lithium Ion Batteries, Journal of Materials Chemistry A,2018,6,7206-7220.
6. R. Z. Hu, Y.P. Ouyang, T. Liang, X. Tang, B. Yuan, J. Liu, L. Zhang, L.C. Yang, M. Zhu*, Inhibiting grain coarsening and inducing oxygen vacancy: the roles of Mn in achieving highly reversible conversion reaction and long life SnO2-Mn-graphite ternary anode, Energy & Environmental Science, 2017, 10,2017-2029. (IF=29.518)
7. R.Z.Hu, Y. P. Ouyang, T. Liang, H. Wang, J. Liu, J.Chen, C.H. Yang, M.Zhu*, Stabilizing nanostrucutre of SnO2 anodes by transition metals: a route to achieve high initial Coulombic efficiency and stable capacities for lithium storage, Advanced Materials, 2017, 29, 1605006(IF=19.791)
8. R.Z. Hu, Dongchang Chen, Gordon Waller, Yunpeng Ouyang, Yu Chen, Bote Zhao, Ben Rainwater, Chenghao Yang, Min Zhu*, Meilin Liu*, Dramatically enhanced reversibility of Li2O in SnO2-based electrodes: the effect of nanostructure on reversible capacity, Energy & Environmental Science, 2016, 9, 595-603. ( IF=29.518)
9. R.Z. Hu, Y.P. Ouyang, D.C. Chen, H. Wang, M. Zhu*, M.L. Liu*,Inhibiting Sn coarsening to enhance the reversibility of conversion reaction in lithiated SnO2 anodes by application of super-elastic NiTi films, Acta Materialia, 2016,109,248-258.(IF=5.301)
10. H.Y. Zhang, R.Z. Hu*, H. Liu, W. Sun, Z.C. Lu, J.W. Liu, L.C. Yang, Y. Zhang, M. Zhu, Spherical Sn-Fe3O4@graphite composite as long-life and high-rate-capability anode for lithium ion batteries, Journal of Materials Chemistry A, 2016, 4(26):10321-10328(IF=8.867)
11. R.Z. Hu, Gordon Henry Waller, Yukun Wang, Yu Chen, Chenghao Yang, Weijia Zhou, Min Zhu* and Meilin Liu*, “Cu 6Sn5@SnO2-C nanocomposite with stable core/shell structure as a high reversible anode for Li ion batteries”,Nano Energy, 2015,18, 232-244. (IF=12.343)
12. R.Z. Hu, H.Y. Zhang, J.W. Liu, D.C. Chen, L.C. Yang, M. Zhu*, M.L.Liu*, Deformable fibrous carbon supported ultrafine nano-SnO2 as a high volumetric capacity and cyclic durable anode for Li storage. Journal of Materials Chemistry A, 2015, 3: 15097-15107. (IF=8.867)
13. R. Z. Hu, W. Sun, Y. L. Chen, M.Q. Zeng, M. Zhu*,Silicon/graphene based nanocomposite anode: large-scale production and stable high capacity for lithium ion batteries, Journal of Materials Chemistry A, 2014, 2: 9118-9125. (IF=8.867)
14. R.Z.Hu, M. Zhu*, H. Wang, J.W. Liu, L-Z. Ouyang, J.Zou, Sn buffered by shape memory effect of NiTi alloys as high-performance anodes for lithium ion batteries, Acta Materialia, 2012, 60(12):4695-4730.(IF=5.301)
15. R.Z.Hu, L.Hui, M.Q.Zeng, J.W.Liu, M.Zhu*, Microsized Sn supported by NiTi alloy as high performance film anode for Li-ion batteries, Journal of Materials Chemistry, 2012, 22,4939-9545.(IF=8.867)
16. R.Z.Hu, H. Liu, M. Q. Zeng, H. Wang, M. Zhu*,Core/shell and multi-scale structures enhance anode performance of Sn-C-Ni composite thin film in lithium ion battery, Journal of Materials Chemistry, 2011, 21(12): 4629-4635.(IF=8.867)
17. R.Z.Hu, M. Zhu*,Sn-based anode materials for lithium ion battery-Preparation, multi-scale structure and performance,Nanomaterials in Advanced Batteries and Supercapacitors, Editors: Kenneth Ozoemena, Shaowei Chen, Springer International Publishing, Switzerland, 2016/07 (Book Chapter)