易清风,男,1963年生,博士,湖南省二级教授,js3845金沙线路博士生导师,中南大学、中国矿业大学兼职博士生导师。中国有机电化学工业联合会常务理事,中国化学会电化学专业委员会委员,湖南省普通高校学科带头人,湖南省新世纪121人才工程人选。2001年晋升为教授,2005.8 ~2006.7年在加拿大Lakehead University作为国家公派访问学者,从事新型电化学能源材料的制备与应用研究。目前主要从事电化学能源材料、燃料电池、金属-空气电池以及低品位软锰矿资源化利用等方面的研究,在无膜直接液体燃料电池、锌-空气电池、贵金属(铂、钯、银、金)类纳米电催化剂、管状与球状C-N复合物纳米材料以及从软锰矿中高效提取锰的研究与应用方面取得了重要进展。目前主持和完成国家自然科学基金3项、湖南省重点领域研发项目1项、教育部留学回国人员科研基金和湖南省自然科学基金等省部级科研项目10项;湖南省科技厅成果鉴定1项;两次获湖南省自然科学奖(2010年和2016年,均排名第1)。在科学出版社(2006年,排名第1)和化学工业出版社(2003年,独著)出版专著2部,授权国家发明专利22项;是《J. Mater. Chem.A》、《Electrochim. Acta》等多个刊物的审稿人。在《Carbon》、《J. Power Sources》、《Electrochim. Acta》、《Electrochem. Commun.》、《Sci. China Mater.》和《Sci. China Chem.》等刊物上发表学术论文150多篇,被SCI、EI收录70余篇,论文H-index为21。
主要获奖:
1. 湖南省自然科学奖三等奖,2010年,排名第一
2. 湖南省自然科学奖三等奖,2016年,排名第一
3. 湖南省九五教育科学研究课题优秀成果三等奖,2002年,排名第一
4. 中国石油和化学工业优秀出版物奖(教材奖)二等奖,2011年,排名第二
5. 湖南省优秀硕士学位论文指导教师,2011年,2012年,2015年
专著和教材
1. 易清风,用同时平衡原理绘制综合平衡电势-pH图,化学工业出版社,2003
2. 易清风,李东艳,环境电化学研究方法,科学出版社,2006
3. 邓建成,易清风,易兵,大学化学基础,化学工业出版社,2006
授权专利
1. 易清风,张嫒嫒,邓中梁,一种亚铁离子/空气电池及其制备方法,第3061618号,ZL 201710000579.5,授权日期:2018-09-04
2. 易清风,邹涛,余亮,张嫒嫒,一种渗透有三聚氰胺的空心碳球的高温热解产物及其制备方法,第3121515号,授权日期:ZL201611041067.5 2018-10-26
3. 易清风,张媛媛,邹涛,一种在碳纸上原位沉积金属纳米催化剂的气体扩散电极及其制造方法,第3030060号,ZL 201610306259.8,授权日期:2018-08-10
4. 易清风,邹涛,阳铮,雷鸣,陈清华,一种以Fe(III)为氧化剂的肼燃料电池及其制造方法,第2847505号,ZL 201510813044.0,授权日期:2018-03-16
5. 易清风,一种无离子膜的紧凑型醇-空气燃料电池及其制造方法,第2620446号,ZL 201510810885.6,授权日期:2017-09-12
6. 易清风,陈清华,阳铮,一种醇/Fe(III)液流燃料电池及其制造方法,第2695247号,ZL 201510364531.3,授权日期:2017-11-14
7. 易清风,一种液流型醇-过氧化氢燃料电池及其制造方法,第2437465号,ZL201510323198.1,授权日期:2017-04-05
8. 易清风,一种以固体质子酸为电解质的全固态型铁-空气电池及其制造方法,第2168067号,ZL 201410715607.8 ,授权日期:2016-08-17
9. 易清风,陈清华,一种用于电化学催化乙醇氧化的微量钯纳米颗粒、制备方法及其应用,第2090767号,ZL 2014 10620680.7 ,授权日期:2016-06-01
10. 易清风,楚浩,陈清华,阳铮,刘小平,一种酸性溶液中的无膜直接醇燃料电池及其制造方法,第1941897号,ZL201410236531.0,授权日期:2016-02-03
11. 易清风,唐梅香,张玉晖,楚浩,刘小平,周智华,聂会东,一种无膜的直接硼氢化钠燃料电池及其制造,第1836899号,ZL 201410010905.7,授权日期:2015-11-04
12. 易清风,一种无膜的直接肼燃料电池及其制造方法,第1757595号,ZL 201410010906.1,授权日期:2015-08-19
13. 易清风,阶梯式加热法与间接电合成法合成3-甲基-4-硝基苯甲酸的方法,第1458278号,ZL 2013 1 0235618.1,授权日期:2014-08-06
14. 易清风,张玉晖,一种掺杂金属的聚苯胺与聚吡咯复合物碳化电催化剂及其制备方法,第1603456号,ZL 201310236953.3,授权日期: 2015-03-11
15. 易清风,张玉晖,一种掺杂聚苯胺直接碳化的复合电催化剂、制备方法及应用,第1543527号,ZL 201210531263.6,授权日期:2014-12-10
16. 易清风,楚浩,一种无膜的直接醇燃料电池的制造方法与应用,第1436015 号,ZL 2012 1 0431264.3,授权日期:2014-07-09
17. 易清风,唐梅香,一种用于燃料电池氧还原反应的碳-银铜-聚苯胺复合电催化剂的制备方法及其产品和应用,第1338454号,ZL 2012 1 0295290.8,授权日期:2014-01-22
18. 易清风,左葛琨琨,用于燃料电池氧还原反应的金属纳米电催化剂及其制备方法和应用,第1048124号,ZL 201110147692.9 ,授权日期:2012-09-26
19. 易清风,唐梅香,一种树枝状纳米银颗粒的制备方法,第1069718号,ZL 201110114145.0,授权日期:2012-10-31
20. 易清风,蔡振勇,铁屑还原浸出软锰矿制备高纯硫酸锰和高纯碳酸锰的方法,第1036307号,ZL 201110047569.X,授权日期:2012-09-05
21. 易清风,孙丽枝,一种可同时合成乙酸的燃料电池的制造方法,第1120895号,ZL 201110005825.9,授权日期:2013-01-16
22. 易清风,蔡振勇,废铁屑还原软锰矿制备电解金属锰溶液并回收铁的新工艺,第1047917号,ZL 201010535033.8,授权日期:2012-09-26
承担的部分项目
1. 国家自然科学基金面上项目(No. 20876038),负责人
2. 国家自然科学基金面上项目(No.21376060),负责人
3. 国家自然科学基金面上项目(No.21875062),负责人
4. 湖南省重点领域研发项目(2019GK2034),负责人
近10余年(2008-2019)发表的部分论文
[1] Liang Yu, Qingfeng Yi*, Xiaokun Yang, Yao Chen, An easy synthesis of Ni-Co doped hollow C-N tubular nanocomposites as excellent cathodic catalysts of alkaline and neutral zinc-air batteries, Science China Materials, 2019, 62(9): 1251–1264
[2] Xiaokun Yang, Qingfeng Yi*, Kuang Sheng, Ting Wang, CoNi-doped C–N/CNT nanocomposites as cathodic catalysts of neutral Zn–air battery, Ionics, 2019, 25:4817–4830
[3] Liang Yu, Qingfeng Yi*, , Xiaokun Yang, Xiulin Zhou, One-Step Construction of Ni/Co-Doped C–N Nanotube Composites as Excellent Cathode Catalysts for Neutral Zinc–Air Battery, NANO, 2019, 14(3):1950028 (15 pages)
[4] Liang Yu, Qingfeng Yi*, Xiaokun Yang, and Guang Li, A Facile Synthesis of C-N Hollow Nanotubes as High Electroactivity Catalysts of Oxygen Reduction Reaction Derived from Dicyandiamide, ChemistrySelect 2018, 3 , 12603– 12612
[5] Liang Yu, Qingfeng Yi*, Guang Li, Yao Chen, and Xiaokun Yang, FeCo-Doped Hollow Bamboo-Like C-N Composites as Cathodic Catalysts for Zinc-Air Battery in Neutral Media, Journal of The Electrochemical Society , 165 (11) A2502-A2509 (2018)
[6] Guang Li , Qingfeng Yi*, Xiaokun Yang , Yao Chen , Xiulin Zhou , Gang Xie, Ni-Co-N doped honeycomb carbon nano-composites as cathodic catalysts of membrane-less direct alcohol fuel cell, Carbon, 140 (2018) 557-568
[7] Zhang Yuanyuan, Yi Qingfeng*, Li Guang, Zhou Xiulin, Carbon Nanotube-Supported Ternary Pd-Ag-Sn Catalysts for Formic Acid Electro-Oxidation, Chinese Journal of Inorganic Chemistry, 2018, 34(7):1209-1220
[8] Zhongliang Deng, Qingfeng Yi*, Yuanyuan Zhang, Huidong Nie, Guang Li, Liang Yu and Xiulin Zhou, Carbon Paper-Supported NiCo/C–N Catalysts Synthesized by Directly Pyrolyzing NiCo-Doped Polyaniline for Oxygen Reduction Reaction, NANO, 2018, 13(1): 1850006 (11 pages)
[9] Zhongliang Deng, Qingfeng Yi *, Guang Li, Yao Chen, Xiaokun Yang, Huidong Nie, NiCo-doped C-N nano-composites for cathodic catalysts of Zn-air batteries in neutral media, Electrochimica Acta 279 (2018) 1-9
[10] Yuanyuan Zhang, Qingfeng Yi*, Zhongliang Deng, Xiulin Zhou, Huidong Nie, Excellent Electroactivity of Ternary Pd–Ag–Sn Nanocatalysts for Ethanol Oxidation, Catalysis Letters (2018) 148:1190–1201
[11] Yuanyuan Zhang, Qingfeng Yi*, Gekunkun Zuo, Tao Zou, Xiaoping Liu, Xiulin Zhou, Lead modified nanoporous platinum electro-catalysts for formic acid oxidation, Journal of Electrochemistry, 2018, 24(3):270-278
[12] Zou Tao, Yi Qingfeng*, Zhang Yuanyuan, Liu Xiaoping, Xu Guorong, Nie Huidong, Zhou Xiulin, Electroactivities of Pd/Fe3O4-C catalysts for electro-oxidation of methanol, ethanol and propanol, Journal of Electrochemistry, 2017, 23(6):708-717
[13] Zhongliang Deng, Qingfeng Yi*, Yuanyuan Zhang, Huidong Nie, NiCo/C-N/CNT composite catalysts for electro-catalytic oxidation of methanol and ethanol, Journal of Electroanalytical Chemistry 803 (2017) 95–103
[14] Yuanyuan Zhang, Qingfeng Yi*, Tao Zou, Xiulin Zhou, Huidong Nie. In situ deposition of Pd nanoparticles on carbon paper and their electroactivity for ethanol oxidation[J]. Ionics, 2017, 23:3169-3176.
[15] 邹涛,易清风*,张媛媛,邓中梁,雷鸣,周秀林, 一种新型的甲酸/铁离子燃料电池, 高等学校化学学报, 2017,38(1):101-107
[16] ZHANG Yuanyuan, YI Qingfeng *, CHU Hao, NIE Huidong,Catalytic activity of Pd-Ag nanoparticles supported on carbon nanotubes for the electro-oxidation of ethanol and propanol,Journal of Fuel Chemistry and Technology,2017,45(4):475-483
[17] Qingfeng Yi* , Tao Zou , Yuanyuan Zhang , Xiaoping Liu , Guorong Xu ,Huidong Nie , Xiulin Zhou . A novel alcohol/iron (III) fuel cell. Journal of Power Sources. 2016. 321: 219-225.
[18] 陈清华,易清风*,阳铮,周秀林,刘小平,聂会东,徐国荣. 碳纳米管上原位沉积钯-钴-镍纳米颗粒及其对乙醇氧化的电活性. 无机化学学报. 2016. 32:1161-1169.
[19] 孙丽枝,易清风*. 钯纳米颗粒在不同碳质材料上的自发沉积与电活性. 新型炭材料. 2015. 30: 151-155.
[20] 陈清华,易清风*. 配体对钯纳米催化剂的形成及其电活性的影响. 无机化学学报. 2015. 31: 1145-1152.
[21] 张玉晖,易清风*,向柏霖. 金属掺杂复合催化剂对氧还原反应的电活性. 电源技术. 2015. 39: 928-930.
[22] Qingfeng Yi*, Qinghua Chen. In situ preparation and high electrocatalytic activity of binary Pd-Ni
nanocatalysts with low Pd-loadings. Electrochimica Acta. 2015. 182: 96-103.
[23] Qingfeng Yi*, Hao Chu, Qinghua Chen,Zheng Yang,and Xiaoping Liu. High Performance Pd, PdNi, PdSn and PdSnNi Nanocatalysts Supported on Carbon Nanotubes for Electrooxidation of C2-C4 Alcohols. Electroanalysis. 2015. 27: 388-397.
[24] Qingfeng Yi*, Qinghua Chen, Zheng Yang. A novel membrane-less direct alcohol fuel cell. Journal of Power Sources. 2015. 298: 171-176.
[25] Qingfeng Yi*, Hao Chu, Meixiang Tang, Zheng Yang, Qinghua Chen, Xiaoping Liu. Carbon nanotube-supported binary silver-based nanocatalysts for oxygen reduction reaction in alkaline media. Journal of Electroanalytical Chemistry. 2015. 739: 178-186.
[26] 张玉晖,易清风*,刘小平,向柏霖. 金属掺杂聚吡咯碳化物PPY-M的制备及其氧还原反应电催化活性. 无机材料学报. 2014. 29: 269-274.
[27] 张玉晖,易清风*. 铁/钴质量比对MWCNT-聚苯胺复合物氧还原电活性的影响. 化工学报. 2014. 65: 2113-2119.
[28] YI QingFeng*, ZHANG YuHui, LIU XiaoPing & YANG YaHui. Carbon-supported Fe/Co-N electrocatalysts synthesized through heat treatment of Fe/Co-doped polypyrrole-polyaniline composites for oxygen reduction reaction. SCIENCE CHINA Chemistry. 2014. 57: 739-747.
[29] Qingfeng Yi*, Yuhui Zhang, XiaopingLiu, Bailin Xiang & Yahui Yang. Fe/Co/C-N nanocatalysts for oxygen reduction reaction synthesized by directly pyrolyzing Fe/Co-doped polyaniline. Journal of Materials Science. 2014. 49: 729-736.
[30] Q. Yi*, H. Chu,M. Tang1, Y. Zhang, X. Liu, Z. Zhou, H.Nie. A Novel Membraneless Direct Hydrazine/Air Fuel Cell. Fuel Cell, 2014. 14: 827-833.
[31] Qing-Feng Yi*, Li-Zhi Sun. In situ synthesis of palladium nanoparticles on multi-walled carbon nanotubes and their electroactivity for ethanol oxidation. 2013. 32: 586-591.
[32] 易清风*,孙丽枝,楚浩,张玉晖,唐梅香,肖兴中,刘小平,聂会东. 一种无膜的自呼吸式直接醇燃料电池. 中国科学: 化学. 2013. 43: 1346-1353.
[33] 唐梅香,易清风*. 银锡双金属催化剂的制备及其对氧还原的催化性能. 应用化学. 2013. 30: 1176-1181.
[34] 肖兴中,易清风*. MnO2/SMWCNT/PANI三元复合材料的合成及其电化学电容性能. 无机材料学 报. 2013. 28: 825-830.
[35] 孙丽枝, 易清风*,刘小平. 丙醇和丁醇异构体在钯镍电极上的电催化氧化. 燃料化学学报. 2013. 41: 1274-1280.
[36] 宋李红,易清风*,唐梅香,孙丽枝,刘小平,聂会东. 树枝状微纳米银催化剂对甲醛的电化学检测. 环境化学. 2013. 32: 15-19.
[37] 孙丽枝,易清风*,刘小平,聂会东. 钯纳米颗粒的制备及对乙醇氧化的电活性. 化工新型材料. 2013. 41: 56-58.
[38] 宋李红,易清风*,唐梅香,孙丽枝. 树枝状银纳米颗粒的电沉积法制备及其对葡萄糖的电催化氧化研究. 分析科学学报. 2013. 29: 191-194.
[39] 孙丽枝,易清风*. 钯镍/ 碳纳米管复合物对乙醇氧化的电活性. 电源技术. 2013. 37: 763-766.
[40] 张玉晖,易清风*. Fe/Co/N/MWCNTs 催化剂的制备及性能. 材料研究学报. 2013. 27: 367-374.
[41] Qing-feng YI*, Xing-zhong XIAO, Yun-qing LIU. Hydrothermal synthesis of titanium-supported nanoporous palladiumcopper electrocatalysts for formic acid oxidation and oxygen reduction reaction. Transactions Nonferrous Metals Society of China. 2013. 23: 1184-1190.
[42] Qingfeng Yi*, Lizhi Sun, Xiaoping Liu, Huidong Nie. Palladium–nickel nanoparticles loaded on multi-walled carbon nanotubes modified with b-cyclodextrin for electrooxidation of alcohols. Fuel. 2013. 111: 88-95.
[43] 蔡振勇,易清风*. 硫酸锰电解还原动力学研究. 湿法冶金. 2012. 31: 81-84.
[44] 宋李红,易清风*. 树枝状纳米银颗粒的制备与电活性. 化学研究与应用. 2012. 24: 602-606.
[45] 孙丽枝,易清风*,刘小平. 多壁碳纳米管负载把催化剂对乙醇氧化的电催化活性. 2012. 27: 85-89.
[46] Qingfeng Yi*, Lihong Song. Polyaniline-Modified Silver and Binary Silver-Cobalt Catalysts for Oxygen Reduction Reaction. Electroanalysis. 2012. 24: 1655-1663.
[47] Yi, Qingfeng* (易清风) ,Zuo, Gekunkun(左葛琨琨). Nanoporous Pt Catalyst Modified by Sn Electrodeposition for Electrochemical Oxidation of Formaldehyde. Chinese Journal Chemistry. 2012. 30: 151-156.
[48] 牛凤娟,易清风*,刘云清. 金修饰纳米多孔Pd催化剂对甲酸氧化的电催化活性. 中国有色金属学报. 2011. 21: 1974-1979.
[49] 牛凤娟,易清风*. 纳米钯催化剂对甲醇的电催化氧化. 电化学. 2011. 17: 67-71.
[50] 于**,易清风*. Pd修饰的钛电极制备及肼的电氧化. 电池工业. 2011. 16: 149-152.
[51] Qingfeng Yi* , Fengjuan Niu, Wenqiang Yu. Pd-modified TiO2 electrode for electrochemical oxidation of hydrazine, formaldehyde and glucose. Thin Solid Films. 2011. 519: 3155-3161.
[52] NIU Fengjuan,Yi Qingfeng*. A novel nanoporous palladium catalyst for formaldehyde electro-oxidation in alkaline media. Rare Metals. 2011. 30: 102-105.
[53] YI Qingfenga*,NIU Fengjuan. Novel nanoporous palladium catalyst for electroreduction of hydrogen peroxide. Rare Metals. 2011. 332-336.
[54] Qingfeng Yi*,Fengjuan Niu , Lizhi Sun. Fabrication of novel porous Pd particles and their electroactivity towards ethanol oxidation in alkaline media. Fuel. 2011. 90: 2617-2623.
[55] Qingfeng Yi*, Fenjuan Niu, Lei Li, Renlian Du, Zhihua Zhou, Xiaoping Liu. Novel nanoporous silver particles for electro-reduction of hydrogen peroxide in alkaline media. Journal of Electroanalytical Chemistry. 2011. 654: 60-65.
[56] Qingfeng Yi*, Fengjuan Niu,Lihong Song,Xiaoping Liu, Huidong Nie. Electrochemical Activity of Novel Titanium-Supported Porous Binary Pd-Ru Particles for Ethanol Oxidation in Alkaline Media. Electroanalysis. 2011. 23: 2232-2240.
[57] 于**,易清风*. 钛基纳米多孔金电极对甲醛氧化的点催化活性. 无机化学学报. 2010. 26: 459-463.
[58] 易清风*,李磊,宋李红,牛凤娟. 松树枝状双金属Ag-Cu颗粒的制备与电活性. 无机化学学报. 2010. 26: 1600-1604.
[59] YI Qingfeng*, LI Lei, YU Wenqiang, LIU Xiaoping, ZHOU Zhihua, and NIE Huidong. Novel nanoporous binary Ag-Ni electrocatalysts for hydrazine oxidation. Rare Metals. 2010. 29: 26-31.
[60] Qingfeng Yi*, Wenqiang Yu, Fengjuan Niu. Novel Nanoporous Binary AuRu Electrocatalysts for Glucose Oxidation. Electroanalysis. 2010. 22: 556-563.
[61] 易清风*,李磊. 新型钛基镍电极对肼氧化反应的电催化活性. 无机化学学报. 2009. 25: 166-170.
[62] 易清风*,李磊. 新型钛基银电极上硼氢化钠的电化学氧化. 化工学报. 2009. 60: 454-459.
[63] Qingfeng Yi* , Wenqiang Yu. Electrocatalytic activity of a novel titanium-supportednanoporous gold catalyst for glucose oxidation. Microchim Acta, 2009, 165, 381–386
[64] Qingfeng Yi*, Wenqiang Yu. Nanoporous gold particles modified titanium electrode for hydrazine oxidation. Journal of Electroanalytical Chemistry, 2009, 633, 159–164
[65] 章晶晶,黄武,易清风*,周伟,李晓虎,刘小平. 环己醇电解氧化制备己二酸. 应用化学. 2008. 25: 1171-1175.
[66] Peter Holt-Hindle, Qingfeng Yi, Guosheng Wu,Kallum Koczkur, Aicheng Chen. Electrocatalytic Activity of Nanoporous Pt–Ir Materials towardMethanol Oxidation and Oxygen Reduction. Journal of The Electrochemical Society, 2008,155,5-9
[67] Qingfeng Yi*, Wu Huang, Xiaoping Liu, Guorong Xu, Zhihua Zhou, Aicheng Chen. Electroactivity of titanium-supported nanoporous Pd–Pt catalysts towardsformic acid oxidation. Journal of Electroanalytical Chemistry, 2008, 619–620, 197–205
[68] Qingfeng Yi*, Lei Li, Wenqiang Yu, Zhihua Zhou, Xiaoping Liu, Guorong Xu. Hydrothermal synthesis of titanium-supported PtIrRu/Ti electrodeand its electrocatalytic activity. Journal of Alloys and Compounds, 2008, 466, 52–58
[69] Qingfeng Yi*, Jingjing Zhang, Aicheng Chen, Xiaoping Liu, Guorong Xu, Zhihua Zhou. Activity of a novel titanium-supported bimetallic PtSn/Tielectrode for electrocatalytic oxidation of formic acidand methanol. J Appl Electrochem. 2008, 38, 695–701
[70] Qingfeng Yi*, Lei Li,Wenqiang Yu, Zhihua Zhou, Guorong Xu. A novel titanium-supported Ag/Ti electrode for the electro-oxidation of hydrazine. Journal of Molecular Catalysis A: Chemical. 2008, 295, 34–38
[71] Qingfeng Yi*, Wu Huang, Wenqiang Yu, Lei Li, Xiaoping Liu. Hydrothermal Synthesis of Titanium-Supported Nickel Nanoflakesfor Electrochemical Oxidation of Glucose. Electroanalysis, 2008, 20, 2016–2022
[72] YI, Qing-Feng* (易清风) HUANG, Wu(黄武) YU, Wen-Qiang(于**)LI, Lei(李磊) LIU, Xiao-Ping(刘小平). Fabrication of Novel Titanium-supported Ni-Sn Catalysts forMethanol Electro-oxidation. Chinese Journal of Chemistry , 2008, 26 , 1367 — 1372
[73] Qingfeng Yi*, Wu Huang, Jingjing Zhang, Xiaoping Liu, Lei Li. Methanol oxidation on titanium-supported nano-scale Ni flakes. Catalysis Communications, 2008, 9, 2053–2058