教师介绍 [更新时间:2011-03-23 09:18:00]

   姓名:陈红雨
   职称:

   研究生培养:
   Email:

研究领域:

  0914_2       

姓名:陈红雨

职称:教授

研究生培养:博士生导师,硕士生导师,教育硕士生导师

Email:hychen@scnu.edu.cn

研究领域:

研究方向: 1.先进铅酸蓄电池技术工艺及材料, 2.锂离子电池材料, 3.废铅酸蓄电池的回收处理、再生铅、铅合金, 4.废锂离子电池(新能源汽车动力电池)的回收处理

博士研究生可招专业:1.物理化学(电化学方向),2.新能源材料化学与物理

硕士研究生可招专业: 1.物理化学(电化学方向),2.材料物理与化学(电池材料制备、结构与特性表征方向)

教育硕士生可招专业:化学教育

 

个人简介:

陈红雨教授,广东省高校储能与动力电池产学研结合示范基地负责人,讲授本科生课程:《电池清洁生产工艺》。本科学士、硕士、博士均毕业于北京科技大学(原北京钢铁学院)金属腐蚀与防护专业,1992年7月参加工作,1993 年元月至1998 年12月任国有企业广州蓄电池厂研究所所长、工程师、高级工程师, 1999年元月调入华南师范大学化学系任高级工程师、副教授,2001年3月至2003年9月在加拿大从事燃料电池开发,2004年任华南师范大学化学系副主任、硕士生导师, 2005年至2013年任华南师范大学化学与环境学院院长、教授、博士生导师。长期从事先进铅酸蓄电池技术工艺及材料(铅合金和隔板等)、锂离子电池材料、废铅酸蓄电池回收处理、.废锂离子电池(新能源汽车动力电池)回收处理等相关课题的研究和开发工作,先后主持纵向与横向项目50余项,在国内外刊物发表电池及材料方面学术论文160多篇,在国内外学术会议上作学术报告60余次,获批专利40余件。主编《电池工业节能减排技术》、 《先进铅酸蓄电池制造工艺》、 《铅酸蓄电池隔板》、 《铅酸蓄电池污染防治与职业卫生防护》、 《铅酸蓄电池分析与检测技术》、 《铅炭电池与起停电池》、 《循环经济基础》、 《高考志愿填报手册》(自2010年至今)、 《高校录取分数线速查》、 《化学新课标与新高考》、 《化学、环境、材料教学实践》等11部著作。参编加拿大NRC-IFCI组织的《LEAD-ACID  BATTERY  TECHNOLOGIES》和国家工信部组织的《铅蓄电池行业准入实施技术指南》、 《铅蓄电池行业规范条件实施技术指南》等3部著作。组织翻译《锂离子电池技术研究进展与应用》、 《太阳能电池——从原理到新概念》等2部著作。获省部级科技进步奖二等奖2项、三等奖3项,其他科技进步奖10余项。1996年获广州市政府重奖科技人员的“广州市科技突出贡献金鼎奖”,2000年获中国化学会的“中国化学会青年化学奖”,2015 年获中国电池工业协会的“中国电池行业特殊贡献专家”称号。 曾是广东省第八届政协委员(科技界)、中共广州市第七次代表大会代表(工业界)、广州市第七届政协列席代表(科技界)。曾是国家工信部铅蓄电池行业规范条件(原准入条件)审核专家组专家、广东省高等学校“千百十工程”省级培养人才。曾兼任过的社会职务主要包括:中国仪器仪表学会理事、中国电工技术学会铅酸蓄电池专业委员会副主任委员、全国铅酸蓄电池标准化技术委员会副主任委员、中国有色金属工业协会再生金属学术委员会委员、中国再生资源产业技术创新联盟专家委员会委员、中国电子学会化学与物理电源技术分会委员、中国仪表材料学会储能与动力电源专业委员会副主任委员、中国电池工业协会理事、中国化学与物理电源行业协会理事、中国环境科学学会特聘理事、中国机械工程学会环境保护分会常务委员、中国生态经济学会工业生态经济与技术专业委员会常务理事、广东省青年科学家协会理事兼环境与能源专业委员会副主任委员、广东省环境监测协会副会长、广东省动力电池标准化技术委员会主任委员。

 

主要论文:

[1]       Shiwen Zeng, Ruirui Zhao*, Aiju Li, Shida Xue, Dongsheng Lv, Qiong Luo, Dong Shu, Hongyu Chen*, MnO/Carbon fibers prepared by an electrospinning method and their properties used as anodes for lithium ion batteries, Applied Surface Science, 2019, 463, 211-216.

[2]       Ruirui Zhao, Wei Zhao, Tianren Zhang, Haimin Zhao, Dongsheng Lv, Guang Shi*, Hongyu Chen*, Preparation of PbxOy@SiOz/Carbon composite and its electrochemical properties investigation in lead-acid battery, Journal of Electroanalytical Chemistry, 2018, 814: 38-44.

[3]       Hongyu Chen, Xianfeng Zhu, Yi Chang, Junchao Cai, Ruirui Zhao*, 3D flower-like CoS hierarchitectures recycled from spent LiCoO2 batteries and its application in electrochemical capacitor, Materials Letters, 2018, 218, 40-43.

[4]       Ruirui Zhao, Jiaxing Liang, Jiajun Huang, Ruiyu Zeng, Jiafeng Zhang, Hongyu Chen*, Guang Shi, Improving the Ni-rich LiNi0.5Co0.2Mn0.3O2 cathode properties at high operating voltage by double coating layer of Al2O3 and AlPO4Journal of Alloys and Compounds, 2017, 724, 1109-1116.

[5]       Zilian Yang, Dongliang Lu, Ruirui Zhao*, Aimei Gao, Hongyu Chen, Synthesis of a novel structured Mn3O4@C composite and its performance as anode for lithium ion battery, Material Letters, 2017, 198, 97-100.

[6]       Yumeng Wu, Ruirui Zhao*, Huawen Zhou, Dejing Zhang, Wei Zhao, Hongyu Chen*, Synthesis and application of a novel Cu/RGO@Pb alloy for lead-acid batteries, Electrochimica Acta, 2016, 222, 116-122

[7]       Ruirui Zhao, ZilianYang, Hongyu Chen*, Understanding the role of Na-doping on Ni-rich layered oxide LiNi0.5Co0.2Mn0.3O2Journal of Alloys and Compounds, 2016, 689, 318-325.

[8]       Tao Wang, Zhanjun Chen, Ruirui Zhao, Hongyu Chen, Design and tailoring of a three-dimensional lithium rich layered oxide-graphene/carbon nanotubes composite for lithium-ion batteries, Electrochimica Acta, 2016, 211, 461-468.

[9]       Tao Wang, Zhanjun Chen, Ruirui Zhao*, Aiju Li, Hongyu Chen*, A New High Energy Lithium ion Batteries Consisting of 0.5Li2MnO3·0.5LiMn0.33Ni0.33Co0.33O2 and Soft Carbon Components, Electrochimica Acta, 2016, 194, 1-9.

[10]    Cheng Ma, Yuehong Shu, Hongyu Chen*, Preparation of high-purity lead oxide from spent lead paste by low temperature burning and hydrometallurgical processing with ammonium acetate solution, RSC Advance, 6, 2016, 21148–21155

[11]    Cheng Ma, Yuehong Shu*, Hongyu Chen, Leaching of Lead Paste by Oxalate and Sodium Oxalate and Prepared Leady Oxide Powder in Nitrogen and Air for Lead Acid Battery, Journal of The Electrochemical Society2016, 163(10): A2240-A2247.

[12]    Cheng Ma, Yuehong Shu, Hongyu Chen*, Recycling lead from spent lead pastes using oxalate and sodium oxalate and preparation of novel lead oxide for lead-acid batteries, RSC Advance, 5, 2015, 94895-94902.

[13]    Yufeng Zhang, Xue Liu, Junchao Cai, Hongyu Chen*, Influence of sodium polyaspartate added to the negative active material on the electrochemical behavior of lead-acid batteries, Ionics, 21, 2015, 2693-2700.

[14]    Yuehong Shu, Cheng Ma, Longguan Zhu, Hongyu Chen*, Leaching of lead slag component by sodium chloride and diluted nitric acid and synthesis of ultrafine lead oxide powders, Journal of Power Sources, 281, 2015, 219-226.

[15]    Pengyang Tong, Ruirui Zhao*, Rongbo Zhang, Fenyun Yi, Guang Shi, Aiju Li, Hongyu Chen*, Characterization of Lead-containing activated carbon and its excellent performance of extending lead-acid battery cycle life for high-rate partial-state-of-charge operation, Journal of Power Sources, 286, 2015, 91-102.

[16]    Ruirui Zhao, Zilian Yang, Hongyu Chen*, et al, Novel solvo/hydrothermal assisted co-precipitation method for faceted LiNi1/3Mn1/3Co1/3O2 cathode material, Journal of Alloys and Compounds, 2015, 627, 206-210.

[17]    Zhanjun Chen, Hongyu Chen*, et al, Polyhedral ordered LiNi0.5Mn1.5O4 spinel with excellent electrochemical properties in extreme conditions, Journal of Power Sources, 2015, 274, 265-273.

[18]    Fenyun Yi, Hongyu Chen*, Performance of Solid Oxide Fuel Cell With La and Cr Co-doped SrTiO3 as Anode, Journal of Fuel Cell Science and Technology, 2014, 11, 1-3.

[19]    Ruirui Zhao, Hongyu Chen*, et al, Ultrasonic/microwave-assisted co-precipitation method in the synthesis of Li1.1Mn0.433Ni0.233Co0.233Ocathode material for lithium-ion batteries, Material Letters, 2014, 136, 160-163.

[20]    Hang Hu, Hongyu Chen*, et al, Zirconium phosphate wrapped LiMn1.5Ni0.5O4 used in lithium ionbatteries as high voltage cathode material, Applied Surface Science, 2014, 316, 348-354.

[21]    Zhanjun Chen, Ruirui Zhao, Peng Du, Hang Hu, Tao Wang, Licai Zhu, Hongyu Chen*, Polyhedral LiNi0.5Mn1.5O4 with excellent electrochemical properties for lithium-ion batteries, Journal of Material Chemistry A, 2014, 2, 12835-12848.

[22]    Mingyue Mo, K.S. Hui, Xiaoting Hong, Junsheng Guo, Chengcong Ye, Aiju Li, Nanqian Hu, Zhenze Huang, Jianhui Jiang, Jingzhi Liang, Hongyu Chen*, Improved cycling and rate performance of Sm-doped LiNi0.5Mn1.5O4 cathode materials for 5V lithium ion batteries, Applied Surface Science, 2014, 290, 412-418.

[23]    Mingyue Mo, Chengcong Ye, Ke Lai, Zhenze Huang, Licai Zhu, Guozheng Ma, Hongyu Chen*, K.S. Hui, Gelatin-assisted synthesis of LiNi0.5Mn1.5O4 cathode material for 5V lithium rechargeable batteries, Applied Surface Science, 2013, 276, 635-640.

[24]    Fenyun Yi, Hongyu Chen*, et al, Preparation and characterization of La and Cr co-doped SrTiO3 materials for SOFC anode, Ceramics International, 2013, 39, 347-352.

[25]    Zhanjun Chen, Wenda Huang, Dongliang Lu, Ruirui Zhao, Hongyu Chen*, Hydrothermal synthesis and electrochemical properties of crystalline Zn2V2Onanorods, Materials Letters, 2013, 107, 35-38.

[26]    Ruirui Zhao, LiCai Zhu, Zhenze Huang, Jingzhi Liang, Hongyu Chen*, An investigation on the performance of LiFePO4/C derived from various FePO4, Ionics, 2013, 19, 581-588.

[27]    Ruirui Zhao, I Ming Hung, Yiting Li, Hongyu Chen, ChunPeng Lin, Synthesis and properties of Co-doped LiFePO4 as cathode material via a hydrothermal route for lithium-ion batteries, Journal of Alloys and compounds, 2012, 513, 282-288.

[28]    Ruirui Zhao, Bingyan Lan, Hongyu Chen, Guozheng Ma, Hydrothermal synthesis and properties of manganese-doped LiFePO4Ionics, 2012, 18, 873-879.

[29]    Ruirui Zhao, Guozheng Ma, Licai Zhu, Aiju Li, Hongyu Chen, An improved carbon-coating method for LiFePO4/C composite derived from Fe precursor, International Journal of Electrochemical Science, 2012, 7, 10923-10932.

[30]    Liping Tang, Aiju Li, Hongyu Chen, et al. The electrochemical performances of a novel lead-sodium binary grid alloy for lead-acid batteries. Electrochimica Acta, 2011, 56,  4566-4570.

[31]    He Li, Heping Liu, Hongyu Chen, et al. Effects of covalently bonded siloxane on the electrochemical and physical behavior of GEL-VRLA battery. Electrochemica Acta. 2010, 56, 663-666.

[32]    Hongyu Chen, Aiju Li*, D.E. Finlow. The Lead and Lead-Acid Battery Industries in China. Journal of Power Sources, 2009, 191, 22-27.

[33]    Aiju Li, Yiman Chen, Hongyu Chen*, Dong Shu,Weishan Li, Hui Wang, Chuanlong Dou, Wei Zhang, Shun Chen. Electrochemical behavior and application of lead–lanthanum alloys for positive grids of lead-acid batteries. Journal of Power Sources2009, 189, 1204-1211.

[34]    He Li, WenXian Guo, Hongyu Chen*, D.E. Finlow. Study on the microstructure and electrochemical properties of lead–calcium–tin–aluminum alloys. Journal of Power Sources, 2009, 191, 111–118

[35]    Wenxian Guo, Dong Shu*, Hongyu Chen, Aiju Li. Study on the structure and property of lead tellurium alloy as the positive grid of lead-acid batteries. Journal of Alloys and Compounds, 2009, 475, 102–109

[36]    Yu Chang, Xianxian Mao, Yanfang Zhao, Shaoli Feng, Hongyu Chen*, David Finlow, Lead-acid battery use in the development of renewable energy systems in ChinaJournal of Power Sources, 2009, 191, 176–183

[37]    Meiqiong Chen, Hongyu Chen*, Dong Shu, Aiju Li, D. E. Finlow. Effects of preparation condition and particle size distribution on fumed silica gel valve-regulated lead-acid batteries performance, Journal of Power Sources, 2008, 181, 161–171

[38]    Hongyu Chen*, Shi Li, Aiju Li. Lad-samarium alloy for positive grid of lead acid batteries, Journal of Power Sources2007,168, 79-89.

[39]    JingZhi Liang, Hongyu Chen*, Properties and application of lead-calcium-tin-aluminum-bismuth alloys for positive grids, Journal of Power Sources, 2006, 158, 908-913.

[40]    S.Li,H.Y.Chen*,M.C.Tang,W.W.Wei,Z.W.Xia,Y.M.Wu,W.S.Li,X.Jiang. Electrochemical behavior of lead alloys in sulfuric and phosphoric electrolyte, Journal of Power Sources, 2006,158, 914-919.



个人简介:

华南师范大学 化学与环境学院  地址:广州大学城外环西路 邮政编码:510006 道德自查