冯春华

电子邮箱chfeng@scut.edu.cn

出生年月:19782

性别:                籍贯:湖北黄梅

政治面貌:致公党党员


教学课程:

  • 《环境与能源》(全英,本科生课程)

  • 《环境学导论》(本科生课程)

  • 《环境科技文献检索》(本科生课程)

  • 《大学化学》(本科生课程)

  • 《新能源前沿讲座》(博士课程)

工作经历:

  • 2014年9月-至今华南理工大学环境与能源学院教授

  • 2016年3月-2017年3月新加坡南洋理工大学访问学者

  • 2013年1月-2014年8月华南理工大学环境与能源学院副教授 

  • 2012年4月-2012年12月日本岐阜大学客座副教授 

  • 2010年9月-2012年12月华南理工大学环境科学与工程学院副教授

  • 2008年1月-2010年8月华南理工大学化学与化工学院讲师

招生专业:

  • 硕士招生专业:学术型硕士:083000|环境科学与工程;专业学位硕士:085700|资源与环境

  • 博士招生专业:学术型博士:083000|环境科学与工程;专业学位博士:085700|资源与环境

教育经历:

  • 2003年9月-2007年9月于香港科技大学获得化学工程博士学位

  • 2000年9月-2003年7月于华南理工大学获得应用化学硕士学位

  • 1996年9月-2000年7月于中国地质大学获得工业分析学士学位

社会、学会及学术兼职:

研究领域:

基于环境电化学技术的污染物定向转化与资源化原理及技术应用;水体/场地土壤重金属修复


科研项目:


  • [19] 主持国家重点研发计划项目课题:场地土壤阳离子态重金属活性钝化新型功能材料研发,No. 2020YFC1808502,时间202011-202310月。(在研)

    [18] 主持国家重点研发计划项目子课题:电子废物拆解场地复合污染土壤修复、风险管控与工程示范,No. 2018YFC1802804,时间201812-202212月。(在研)

    [17] 主持国家自然科学基金面上项目:基于氯、铁循环阴阳两极耦合同步去除难生物降解有机污染物及硝氮机制:以焦化废水生物处理出水为例,No. 21876052,时间20191-202212月。(在研)

    [16] 主持广东省“特支计划”本土创新团队项目课题:矿区重金属污染源头控制与生态修复,No. 2019BT02L218,时间20205-20255月。(在研)

    [15] 主持广东省科技计划国际科技合作项目:同步去除酸性工业废水中重金属、有机污染物及氮/磷的电化学水处理技术研发,No. 2019A05051009,时间20201-202112月。(在研)

    [14]主持华南理工大学中央高校基本科研业务培育项目:污染控制电化学原理与技术No. 2020ZYGXZR055,时间为20201-202112月。(在研)

    [13] 主持国家自然科学基金面上项目:由焦化废水污泥制备碳基电极材料的过程控制机制及其电化学作用原理,No. 21577041,时间20161-201912月。(结题)

    [12] 主持广东省自然科学基金重点项目,复杂水环境中微生物电化学反硝化的影响因子及促进机制研究,NO. 2016A030311023, 时间201610月至201910月。(结题)

    [11] 主持国家自然科学基金面上项目:基于废水中酚类污染物去除与资源化的导电共聚物合成及其赝电容行为研究No. 51378216,时间20141-201712月。(结题)

    [10] 主持国家自然科学基金面上项目:微电场激发下多氯联苯的厌氧还原脱氯研究,No. 21177042,时间20121-201512月。(结题)

    [9] 主持教育部新世纪优秀人才支持计划项目:面向工业废水中有机物深度处理的微生物电化学梯次矿化机制-以焦化废水为例,No. NCET-12-0198,时间20131-201512月。(结题)

    [8] 主持华南理工大学中央高校基本科研业务经费滚动项目:酚类高分子导电共聚物的可控合成及其赝电容行为No. 2014ZG0014,时间为20141-201512月。(结题)

    [7] 主持华南理工大学中央高校基本科研业务经费重点项目,No. 2012ZZ0048,时间20121-201312月。(结题)

    [6] 主持华南理工大学中央高校基本科研业务经费面上项目,No. 2009ZM0026,时间为20101-201112月。(结题)

    [5] 持广东省自然科学基金面上项目:微生物-电化学协同作用下多氯联苯的还原脱氯研究,No. S2011010002231,时间201110-201310月。(结题)

    [4] 主持国家自然科学基金青年基金项目,No. 20803025,时间20091-201112月。(结题)

    [3] 主持广东省自然科学基金博士启动项目,No. 8451064101000891,时间200810-201010月。(结题)

    [2] 参与广东省应用型科技研发专项立项项目:煤/石油化工废水深度处理循环回用集成的技术与工程装备,No. 2015B020235005,时间20161-201812月。(结题)

    [1]参与国家自然科学基金重点基金项目:煤化工过程废水中典型污染物生成机制与控制原理,No. 21037001,时间20111-201412月。(结题)


学术成果:

    [101] Tonghe Zhu, Qiongshan Chen, Peng Liao, Weijian Duan, Sheng Liang, Zhang Yan, Chunhua Feng*. Single-atom Cu catalysts for enhanced electrocatalytic nitrate reduction with significant alleviation of nitrite production. Small, 2020, 16(49): 2004526.(正封面论文)

    [100] Weijian Duan, Jinglei He, Ziliang Wei, Zongren Dai, Chunhua Feng*. A unique Si-doped carbon nanocatalyst for peroxymonosulfate (PMS) activation: insights into the singlet oxygen generation mechanism and the abnormal salt effect, Environmental Science: Nano, 2020, 7(10):2982-2994.

    [99] Wenxiao Zheng, Liuyi Zhu, Sheng Liang, Jinshao Ye, Xin Yang, Zhenchao Lei, Zhang Yan, Yongdong Li, Chaohai Wei, Chunhua Feng*. Discovering the importance of ClO• in a coupled electrochemical system for the simultaneous removal of carbon and nitrogen from secondary coking wastewater effluent. Environmental Science and Technology, 2020, 54(14): 9015-9024.(内封面论文)

    [98] Sheng Liang, Liuyi Zhu, Jian Hua, Weijian Duan, Puu-Tai Yang, Shan-Li Wang, Chaohai Wei, Chengshuai Liu*, Chunhua Feng*, Fe2+/HClO Reaction Produces FeIVO2+: An Enhanced Advanced Oxidation Process. Environmental Science and Technology, 2020, 54(10): 6406-6414. (内封面论文)

    [97] Fuming Chen, Jian Wang, Chunhua Feng, Jinxing Ma, T David Waite, Low energy consumption and mechanism study of redox flow desalination. Chemical Engineering Journal, 2020, 401: 126111.

    [96] Cong Wei, Jingyue Wei, Qiaoping Kong, Dan Fan, Guanglei Qiu, Chunhua Feng, Fusheng Li, Sergei Preis, Chaohai Wei, Selection of optimum biological treatment for coking wastewater using analytic hierarchy process. Science of The Total Environment, 2020, 742: 140400.

    [95] Ge Li, Tonghe Zhu, Yali Ye, Sheng Liang, Weijian Duan, Wei Hong, Chunhua Feng*. Transforming Ni-coagulated polyferriertic sulfate sludge into porous heteroatom-doped carbon-supported transition metal phosphide: An efficient catalyst for oxygen evolution. Energy Technology, 2020, 8:1900995.  

    [94] Ben Chen, Yasi Zhao, Zemin Li, Jianxin Pan, Haizhen Wu, Guanglei Qiu, Chunhua Feng, Chaohai Wei. Ethanol and lysozyme immobilize phosphatidylserine on cell surface for evaluating apoptosis-like decay in activated sludge bacteria. Applied and Environmental Microbiology, 2020, DOI: 10.1128/AEM.00345-20

    [93] Yali Ye, Weijian Duan, Xiaoyun Yi, Zhenchao Lei, Ge Li, Chunhua Feng*. Biogenic precursor to size-controlled synthesis of Fe2P nanoparticles in heteroatom-doped graphene-like carbons and their electrocatalytic reduction of oxygen. Journal of Power Sources, 2019, 435: 226770.

    [92] Weijian Duan, Ge Li, Zhenchao Lei, Tonghe Zhu, Yuzhou Xue, ChaohaiWei, Chunhua Feng*. Highly active and durable carbon electrocatalyst for nitrate reduction reaction, Water Research, 2019, 161, 126-135.

    [91] Sheng Liang, Wenxiao Zheng, Liuyi Zhu, Weijian Duan, Chaohai Wei, Chunhua Feng*. One-step treatment of phosphite-laden wastewater: A single electrochemical reactor integrating superoxide radical-induced oxidation and electrocoagulation. Environmental Science and Technology, 2019, 53(9): 5328-5336.

    [90] Qin Wang, Ziliang Wei, Xiaoyun Yi*, Jie Tang, Chunhua Feng*, Zhi Dang. Biogenic iron mineralization of polyferric sulfate by dissimilatory iron reducing bacteria: Effects of medium composition and electric field stimulation. Science of The Total Environment, 2019, 684: 466-475.

    [89] Shuang Zhu, Haizhen Wu, Chaofei Wu, Guanglei Qiu, Chunhua Feng, Chaohai Wei. Structure and function of microbial community involved in a novel full-scale prefix oxic coking wastewater treatment O/H/O system. Water Research, 2019, 164: 114963.

    [88] Cong Wei, Hengping Wu, Qiaoping Kong, Jingyue Wei, Chunhua Feng, Guanglei Qiu, Chaohai Wei, Fusheng Li. Residual chemical oxygen demand (COD) fractionation in bio-treated coking wastewater integrating solution property characterization. Journal of Environmental Management, 2019, 246: 324-333.

    [87] Tao Zhang, Chaohai Wei, Chunhua Feng, Yuan Ren, Haizhen Wu, Sergei Preis. Advances in characteristics analysis, measurement methods and modelling of flow dynamics in airlift reactors. Chemical Engineering and Processing-Process Intensification, 2019, 144: 107633-

    [86] 叶雅丽,冯伟明,李格,雷振超,冯春华*. 自掺杂污泥碳的制备及其电催化氧还原的性能. 电化学, 2019, 25: 270-279.

    [85] Chunlei Han, Yali Ye, Guanwen Wang, Wei Hong, Chunhua Feng*, Selective electro-oxidation of phenol to benzoquinone/hydroquinone on polyaniline enhances capacitance and cycling stability of polyaniline electrodes. Chemical Engineering Journal, 2018, 347: 648-659.

    [84] Weiming Feng, Yali Ye, Zhenchao Lei, Chunhua Feng*, Chaohai Wei, Shaowei Chen. Phenol-degrading sludge as a promising precursor for capacitive carbon material: Disclosing key factors for the nanostructure and high capacitance. Carbon, 2018, 134: 53-61.

    [83] Hui Wan, Xiaoyun Yi, Xiaoping Liu, Chunhua Feng*, Zhi Dang, Chaohai Wei. Time-dependent bacterial community and electrochemical characterizations of cathodic biofilms in the surfactant-amended sediment-based bioelectrochemical reactor with enhanced 2,3,4,5-tetrachlorobiphenyl dechlorination. Environmental Pollution, 2018, 236: 343-354.

    [82]Di Wu, Xiaoyun Yi, Rong Tang, Chunhua Feng*, Chaohai Wei. Single microbial fuel cell reactor for coking wastewater treatment: Simultaneous carbon and nitrogen removal with zero alkaline consumption. Science of the Total Environment,2018, 621: 497-506.

    [81] Tao Zhang, Haizhen Wu, Chunhua Feng, Chaohai Wei. Modified airlift reactor with a cross-shaped internal and its hydrodynamic simulation by computational fluid dynamic method. Biotechnology and Biotechnological Equipment, 2018, 32: 194-203.

    [80] Hailan Huang, Chunlei Han, Guanwen Wang,Chunhua Feng*. Lignin combined with pyrrole as a renewable cathode material for H2O2 generation and its application in the electro-Fenton process for azo dye removal. Electrochimica Acta, 2018, 259: 637-646.

    [79]Rong Tang, Di Wu, Wenhang Chen, Chunhua Feng*, Chaohai Wei. Biocathode denitrification of coke wastewater effluent from an industrial aeration tank: Effect of long-term adaptation. Biochemical Engineering Journal, 2017, 125: 151-160.

    [78]Xiaoxiao Ma, Zhenchao Lei, Weiming Feng, Yali Ye, Chunhua Feng*. Living Fe mineral@ bacteria encrustation-derived and self-templated preparation of a mesoporous Fe-NC electrocatalyst with high activity for oxygen reduction. Carbon, 2017, 123: 481-491.

    [77]Guanwen Wang, Chunhua Feng*. Electrochemical Polymerization of Hydroquinone on Graphite Felt as a Pseudocapacitive Material for Application in a Microbial Fuel Cell. Polymers, 2017, 9: 220-227.

    [76]Xiaoping Liu, Hui Wan, Yuzhou Xue, Chunhua Feng*, Chaohai Wei. Addition of iron oxides in sediments enhances 2, 3, 4, 5-tetrachlorobiphenyl (PCB 61) dechlorination by low-voltage electric fields. RSC Advances, 2017, 42: 26019-26027.

    [75] Tao Zhang, Chaohai We, Yuan Ren, Chunhua Feng, Haizhen Wu. Advances in airlift reactors: modified design and optimization of operation conditions. Reviews in Chemical Engineering, 2017, 33:163-182.

    [74] Chaohai Wei, Fengzhen Zhang, Yun Hu, Chunhua Feng, Haizhen Wu. Ozonation in water treatment: the generation, basic properties of ozone and its practical application. Reviews in Chemical Engineering, 2017, 33:49-89.

    [73] 杨晓双王凯冯春华*韦朝海. 石墨烯氧化物气凝胶修饰金属阳极促进微生物燃料电池的产电性能. 环境工程学报, 2017, 11: 2598-2606.

    [72]Linjing Yang, Weijia Zhou, Jin Jia, Tanli Xiong, Kai Zhou, Chunhua Feng, Jian Zhou, Zhenghua Tang, Shaowei Chen. Nickel nanoparticles partially embedded into carbon fiber cloth via metal-mediated pitting process as flexible and efficient electrodes for hydrogen evolution reactions. Carbon, 2017, 122: 710-717.

    [71]Wenhang Chen, Di Wu, Hui Wan, Rong Tang, Chenchen Li, Guanwen Wang, Chunhua Feng*. Carbon-based cathode as an electron donor driving direct bioelectrochemical denitrification in biofilm-electrode reactors: Role of oxygen functional groups. Carbon, 2017, 118: 310-318.

    [70] Zhenchao Lei, Weiming Feng, Chunhua Feng*, Weijia Zhou, Chaohai Wei, Xin Wang*. Nitrified coke wastewater sludge flocs: an attractive precursor for N,S dual-doped graphene-like carbon with ultrahigh capacitance and oxygen reduction performance. Journal of Materials Chemistry A, 2017, 5: 2012-2020.

    [69] Hui Yu, Chunhua Feng*, Xiao ping Liu, Xiaoyun Yi, Yuan Ren, Chaohai Wei. Microbial polychlorinated biphenyl dechlorination in sediments by electrical stimulation: The effect of adding acetate and surfactant. Science of the Total Environment, 2017, 580: 1371-1380.

    [68]Jing Zhang, Shicheng Liu, Lingling Li, Yuan Ren, Chunhua Feng, Chaohai Wei, Yipeng Li, Zhili Huang. Anaerobic dechlorination of tetrachlorobisphenol a in river sediment and associated changes in bacterial communities. Water, Air, & Soil Pollution. 2017, 228: 78.

    [67] 李晨晨,曾桃,易筱筠,党志,冯春华韦朝海. 铁还原菌作用下含镉聚合硫酸铁絮体中铁还原与镉释放规律及其影响因素. 环境工程学报, 2017, 11: 778-786.

    [66] Xiaoshuang Yang, Xiaoxiao Ma, Kai Wang, Di Wu, Zhenchao Lei, Chunhua Feng*. Eighteen-month assessment of 3D graphene oxide aerogel-modified 3D graphite fiber brush electrode as a high-performance microbial fuel cell anode. Electrochimica Acta, 2016, 210: 846-853.

    [65] Xiaoxiao Ma, Chunhua Feng*, Weijia Zhou, Hui Yu. Municipal sludge-derived carbon anode with nitrogen- and oxygen-containing functional groups for high-performance microbial fuel cells. Journal of Power Sources, 2016, 307: 105-111.

    [64] Hui Yu, Chunhua Feng*, Xiaoping Liu, Xiaoyun Yi, Ruan Ren, Chaohai Wei. Enhanced anaerobic dechlorination of polychlorinated biphenyl in sediments by bioanode stimulation. Environmental Pollution, 2016, 211: 81-89.

    [63] Chenchen Li, Xiaoyun Yi*, Zhi Dang, Hui Yu, Tao Zeng, Chaohai Wei, Chunhua Feng*.Fate of Fe and Cd upon microbial reduction of Cd-loaded polyferric flocs by Shewanella oneidensis MR-1. Chemosphere, 2016, 144: 2065-2072.

    [62] Haixia Du, Fusheng Li, Zaiji Yu, Chunhua Feng, Wenhan Li. Nitrification and denitrification in two-chamber microbial fuel cells for treatment of wastewater containing high concentrations of ammonia nitrogen.Environmental technology, 2016, 37: 1232-1239.

    [61] Yucheng Zhou, Weijia Zhou, Dongman Hou, Guoqiang Li, Jinquan Wan, Chunhua Feng, Zhenghua Tang, Shaowei Chen. Metal–carbon hybrid electrocatalysts derived from ion-exchange resin containing heavy metals for efficient hydrogen evolution reaction. Small, 2016, 12: 2768-2774.

    [60] Chunhua Feng*, Liqiao Huang, Hui Yu, Xiaoyun Yi, Chaohai Wei. Simultaneous phenol removal, nitrification and denitrification using microbial fuel cell technology. Water Research,2015, 76: 160-170.

    [59] 黄丽巧,易筱筠,韦朝海,冯春华*. 阴极硝化耦合阳极反硝化实现微生物燃料电池技术脱氮. 环境工程学报, 2015, 9: 5119-5124.

    [58] Baoguo Wu, Hui Yu, Chong Lin, Chunhua Feng*, Chaohai Wei*. The use of accumulated charge density of a bioanode to estimate maximum current in a bioelectrochemical system. ChemElectroChem, 2015, 2: 1355-1360

    [57] Yucheng Zhou, Yanhua Leng, Weijia Zhou, Jilin Huang, Mingwen Zhao, Jie Zhan, Chunhua Feng, Zhenghua Tang, Shaowei Chen, Hong Liu. Sulfur and nitrogen self-doped carbon nanosheets derived from peanut root nodules as high-efficiency non-metal electrocatalyst for hydrogen evolution reaction. Nano Energy, 2015, 16: 357-366.

    [56] Daohai Xie, Chenchen Li, Rong Tang, Zhisheng Lv, Yuan Ren, Chaohai Wei, Chunhua Feng*. Ion-exchange membrane bioelectrochemical reactor for removal of nitrate in the biological effluent from a coking wastewater treatment plant. Electrochemistry Communications, 2014, 46: 99-102.

    [55] Daohai Xie, Hui Yu, Chenchen Li, Yuan Ren, Chaohai Wei, Chunhua Feng*. Competitive microbial reduction of perchlorate and nitrate with a cathode directly serving as the electron donor. Electrochimica Acta, 2014, 133: 217-223.

    [54] Chunhua Feng*, Zhisheng Lv, Fusheng Li, Yun Hu, Chaohai Wei. Anode modifications with capacitive materials for a microbial fuel cell: an increase in transient or stationary power. Physical Chemistry Chemical Physics, 2014, 16: 10462-10472.

    [53] Zhisheng Lv, Daohai Xie, Fusheng Li, Yun Hu, Chaohai Wei, Chunhua Feng*. Microbial fuel cell as a biocapacitor by using pseudo-capacitive anode materials. Journal of Power Sources, 2014, 246:642-649.

    [52] Baoguo Wu, Chunhua Feng*, Liqiao Huang, Zhisheng Lv, Daohai Xie, Chaohai Wei*. Anode-biofilm electron transfer behavior and wastewater treatment under different operational modes of bioelectrochemical system. Bioresource Technology, 2014, 157: 305-309.

    [51] Huase Ou*, Chaohai Wei, Cehui Mo, Haizhen Wu, Yuan Ren, Chunhua Feng. Novel insights into anoxic/aerobic/aerobic biological fluidized-bed system for coke wastewater treatment by fluorescence excitation-emission matrix spectra coupled with parallel factor analysis. Chemosphere, 2014, 113: 158-164.

    [50] Chong Lin, Wanhui Zhang, Mengyang Yuan, Chunhua Feng, Yuan Ren, Chaohai Wei*. Degradation of polycyclic aromatic hydrocarbons in a coking wastewater treatment plant residual by an O3/ultraviolet fluidized bed reactor. Environmental Science and Pollution Research, 2014, 21: 10329-10338.

    [49] Chunhua Feng, Xianjun Yue, Fangbai Li*, Chaohai Wei. Bio-current as an indicator for biogenic Fe() generation driven by dissimilatory iron reducing bacteria. Biosensors and Bioelectronics,2013, 39: 51-56.

    [48] Zhisheng Lv, Yanfeng Chen, Hengchen Wei, Fusheng Li, Chaohai Wei, Chunhua Feng*. One-step electrosynthesis of polypyrrole/graphene oxide composites for microbial fuel cell application. Electrochimica Acta,2013, 111: 366-373.

    [47] Yunmeng Pang, Daohai Xie, Baoguo Wu, Zhisheng Lv, Xuhui Zeng, Chaohai Wei, Chunhua Feng*. Conductive polymer-mediated Cr(VI) reduction in a dual-chamber microbial fuel cell under neutral condition. Synthetic Metals,2013, 183: 57-62.

    [46] 冯春华*,谢道海,庞韵梦,韩涛,韦朝海. 电驱动下的环境污染物厌氧生物转化-电子转移原理和应用实例. 电化学, 2013, 19: 444-453.

    [45] Wanhui Zhang, Chaohai Wei*, Bo Yan, Chunhua Feng, Guobao Zhao, Chong Lin, Mengyang Yuan, Chaofei Wu, Yuan Ren, Yun Hu. Identification and removal of polycyclic aromatic hydrocarbons in wastewater treatment process from coke production plants. Environmental Science and Pollution Research,2013, 20: 6418-6432.

    [44] Wanhui Zhang, Chaohai Wei*, Chunhua Feng, Yuan Ren, Yun Hu, Bo Yan, Chaofei Wu. The occurrence and fate of phenolic compounds in a coking wastewater treatment plant. Water Science & Technology,2013, 68: 433-440.

    [43] Huijing Huang, Chunhua Feng, Xiaxia Pan, Haizheng Wu, Yuan Ren, Chaofei Wu, Chaohai Wei*. Thiocyanate oxidation by coculture from a coke wastewater treatment plant. Journal of Biomaterials and Nanobiotechnology,2013, 4: 37-46.

    [42] 贺晶莹,韦朝海*冯春华,任源,胡芸,吴超飞.焦化废水处理过程外排泥中重金属形态特征及其潜在环境风险. 环境工程学报, 2013, 7: 79-85.

    [41] Zhisheng Lv, Daohai Xie, Xianjun Yue, Chunhua Feng*, Chaohai Wei. Ruthenium oxide-coated carbon felt electrode: A highly active anode for microbial fuel cell applications. Journal of Power Sources, 2012, 210:26-31.

    [40] Yanfeng Chen, Zhisheng Lv, Jianming Xu, Dongqing Peng, Yinxing Liu, Jiaxian Chen, Xibo Sun, Chunhua Feng*, Chaohai Wei. Stainless steel mesh coated with MnO2/CNT and polymethylphenyl siloxane as low-cost and high-performance microbial fuel cell cathode materials. Journal of Power Sources, 2012, 201:136-141.

    [39] Tao Zhang, Chaohai Wei*, Chunhua Feng, Jialiang Zhu. A novel airlift reactor enhanced by funnel internals and hydrodynamics prediction by the CFD method. Bioresource Technology, 2012, 104:600-607.

    [38] ChunPeng Diao, Chaohai Wei*, Chunhua Feng. Rapid determination of benzene derivatives in water samples by trace volume solvent DLLME prior to GC-FID. Chromatographia,2012, 75: 551-555.

    [37] Wanhui Zhang, Chaohai Wei*, Chunhua Feng, Bo Yan, Ning Li, Pingan Peng, Jiamo Fu. Coking wastewater treatment plant as a source of polycyclic aromatic hydrocarbons (PAHs) to the atmosphere and health-risk assessment for workers. Science of The Total Environment,2012, 432: 396-403.

    [36] Wanhui Zhang, Chunhua Feng, Chaohai Wei*, Bo Yan, Chaofei Wu, Ning Li. Identification and characterization of polycyclic aromatic hydrocarbons in coking wastewater sludge. Journal of Separation Science,2012, 35: 3340-3346.

    [35] 吴海珍,冯春华,于旭彪,韦朝海. 水中持久性有机氯化物的污染形成与控制策略. 华南理工大学(自然科学版),2012, 40: 33-40.

    [34] 林冲,袁孟阳,韦朝海*冯春华,胡芸,任源,吴超飞,吴海珍. 焦化废水缓冲体系的存在证明与集水调节池中水质结构调控. 环境化学,2012, 31: 1473-1479.

    [33] 刘显清,李国保,吴海珍,张万辉,关清卿,冯春华,吴超飞,胡芸,韦朝海*. 酚类化合物在焦化废水处理过程中的降解与转移. 环境化学,2012, 31: 1487-1493.

    [32] 杨清玉,易欣怡,于旭彪,关清卿,任源;胡芸,冯春华,韦朝海*. 聚羟基丁酸酯(PHB)对水中微量多环芳烃的仿生吸附. 环境化学,2012, 31: 1518-1526.

    [31] Chunhua Feng*, Qunyi Wan, Zhisheng Lv, Xianjun Yue, Yanfeng Chen, Chaohai Wei. One-step fabrication of membraneless microbial fuel cell cathode by electropolymerization of polypyrrole onto stainless steel mesh. Biosensors & Bioelectronics, 2011, 26: 3953-3957.

    [30] Chunhua Feng, Fangbai Li*, Kewen Sun, Yongye Liu, Liang Liu, Xianjun Yue, Hui Tong. Understanding the role of Fe(III)/Fe(II) couple in mediating reductive transformation of 2-nitrophenol in microbial fuel cells. Bioresource Technology, 2011, 102: 1131-1136.

    [29] Chaohai Wei*, Tao Zhang, Chunhua Feng, Zhiyi Deng, Chaofei Wu, Bin Lu, Treatment of food processing wastewater in a full-scale jet biogas internal loop anaerobic fluidized bed reactor. Biodegradation,2011, 22: 347-357.

    [28] Wanhui Zhang, Chaohai Wei*, Chunhua Feng, Zhe Yu, Man Ren, Bo Yan, Pinggan Peng, Jiamo Fu.Distribution and health-risk of polycyclic aromatic hydrocarbons in soils at a coking plant. Journal Environmental Monitoring, 2011,13: 3429-3436. 

    [27] Yun Liu, Zhi Dang, Guining Lu, Pingxiao Wu, Chunhua Feng, Xiaoyun Yi. Utilization of electrochemical impedance spectroscopy for monitoring pyrite oxidation in the presence and absence of Acidithiobacillus ferrooxidans. Minerals Engineering, 2011, 24:833-838.

    [26] Liang Liu, Fangbai Li, Yong Yuan, Chunhua Feng. In-situ Cr(VI) reduction with electrogenerated hydrogen peroxide driven by iron-reducing bacteria. Bioresource Technology, 2011, 102:2468-2473.

    [25] 潘霞霞,黄会静,冯春华,吴超飞,韦朝海*. 焦化废水中硫氰化物的快速检测方法. 煤化工, 201115215-18.

    [24] 朱家亮,陈祥佳,张涛,冯春华,韦朝海*. 基于CFD的内构件强化内循环流化床流场结构分析[J]. 环境科学学报,2011311212-1219.

    [23] 黄会静,韦朝海*,吴超飞,冯春华,吴海珍,卢彬. 焦化废水生物处理A/O/H/O工艺中氰化物的去除特性. 化工进展, 2011301141-1145.

    [22] Chunhua Feng, Fangbai Li*, Hongjian Mai and Xiangzhong Li. Bio-electro-Fenton process driven by microbial fuel cell for wastewater treatment. Environmental Science & Technology, 2010, 44: 1875-1880.

    [21] Chunhua Feng*, Le Ma, Fangbai Li, Hongjian Mai, Xuemei Lang, Shuanshi Fan. A polypyrrole/anthraquinone-2,6-disulphonic disodium salt (PPy/AQDS)-modified anode to improve performance of microbial fuel cells. Biosensors & Bioelectronics,2010, 25: 1516-1520.

    [20] Chunhua Feng*, Fangbai Li, Haiyang Liu, Xuemei Lang, Shuanshi Fan. A dual-chamber microbial fuel cell with conductive film-modified anode and cathode and its application for the neutral electro-Fenton process. Electrochimica Acta,2010, 55, 2048-2054.

    [19] Xuemei Lang, Qunyi Wan, Chunhua Feng*, Xianjun Yue, Wendong Xu, Jing Li, Shuanshi Fan. The role of anthraquinone sulfonate dopants in promoting performance of polypyrrole composites as pseudo-capacitive electrode materials. Synthetic Metals,2010, 160: 1800-1804.

    [18] 万群义,樊栓狮,岳羡君,郎雪梅,徐文东,李静,冯春华*.  9,10-蒽醌-2-磺酸钠盐掺杂对导电聚吡咯电容性能的促进作用, 物理化学学报, 2010, 26: 2951-2956.

    [17] Li Zhuang, Chunhua Feng, Shungui Zhou*, Yongtao Li, Yueqiang Wang, Comparison of membrane- and cloth-cathode assembly for scalable microbial fuel cells: Construction, performance and cost. Process Biochemistry, 2010, 45: 929-934.

    [16] Fang Cao, Fangbai Li*, Tongxu Liu, Daxiang Huang, Chunyuan Wu, Chunhua Feng, Xiaomin Li. Effect of Aeromonas hydrophila on reductive dechlorination of DDTs by zero-valent iron. Journal of Agricultural and Food Chemistry, 2010, 58: 12366-12372.

    [15] Fangbai Li*, Xiaomin Li, Shungui Zhou, Li Zhuang, Fang Cao, Daxiang Huang, Wei Xu, Tongxu Liu, Chunhua Feng, Enhanced reductive dechlorination of DDT in an anaerobic system of dissimilatory iron-reducing bactria and iron oxide. Environmental Pollution, 2010, 158: 1733-1740.

    [14] Liang Liu, Fangbai Li*, Chunhua Feng*, Xiangzhong Li. Microbial fuel cell with an azo-dye-feeding cathode. Applied Microbiology and Biotechnology, 2009, 85:175-183.

    [13] Fangbai Li*, Liang Tao, Chunhua Feng, Xiangzhong Li., Kenwen Sun. Electrochemical evidences for promoted interfacial reactions: The role of adsorbed Fe(II) onto Al2O3 and TiO2 in reductive transformation of 2-Nitrophenol. Environmental Science & Technology, 2009, 43: 3656-3661.

    [12] Chunshuai Liu, Lijiang Zhang, Chunhua Feng, Changan Wu, Fangbai Li*, Xiangzhong Li.  Relationship between oxidative degradation of 2-mercaptobenzothiazole and physicochemical properties of manganese (hydro)oxides. Environmental Chemistry,2009, 6: 83-92.

    [11] Liang Tao, Fangbai Li*, Chunhua Feng, Kewen Sun. Reductive Transformation of 2-Nitrophenol by Fe(II) Species in γ-Aluminum Oxide Suspension. Applied Clay Science, 2009, 46: 95-101.

    [10] Chengshuai Liu, Lijia Zhang, Fangbai Li, Yan Wang, Yun Gao, Xiangzhong Li, Weidong Cao, Chunhua Feng, Jun Dong, Lina Sun. Dependence of sulfadiazine oxidative degradation on physicochemical properties of manganese dioxide. Industrial & Engineering Chemistry Research,2009, 48: 10408-10413.

    [9] Xiaomin Li, Yongtao Li, Fangbai Li, Shungui Zhou, Chunhua Feng, Tongxu Liu. Interactively interfacial reaction of iron-reducing bacterium and goethite for reductive dechlorination of chlorinated organic compounds. Chinese Science Bulletin, 2009, 54: 2800-2804.

    [8] Zhiyong Xiao*, Chunhua Feng, Philip C.H. Chan and I-Ming Hsing. Monolithically integrated planar microfuel cell arrays. Sensors and Actuators B, 2008, 132: 576-586.

    [7] Chunhua Feng, Philip C.H. Chan, I.-Ming Hsing*. Catalyzed microelectrode mediated by polypyrrole/Nafion® composite film for microfabricated fuel cell applications. Electrochemistry Communications (selected as a Feature Article published in Fuel Cells Bulletin), 2007, 9: 89-93.

    [6] Chunhua Feng, Zhiyong Xiao, Philip C.H. Chan, I.-Ming Hsing*. Lithography-free silicon micro-pillars as catalyst supports for microfabricated fuel cell applications. Electrochemistry Communications,2006, 8: 1235-1238.

    [5] Zhiyong Xiao, Guizhen Yan, Chunhua Feng, Philip C.H. Chan, I-Ming Hsing. A silicon-based fuel cell micro power system using a microfabrication technique. Journal of Micromechanics and Microengineering, 2006, 16: 2014-2020.

    [4] 冯春华,古国榜*. 高分散度Pt/C电催化剂的制备.功能材料,2003, 34: 64-66.

    [3] 古国榜*冯春华. 纳米Pt-Ru/C电催化剂的制备.华南理工大学学报,2002, 30: 144-148.

    [2] 夏华*冯春华.普通化学实验CAI的设计与研制. 建材高教理论与实践, 2001, 20: 100-102.

    [1]夏华*冯春华.  9,10-蒽醌-2-磺酸钠盐掺杂对导电聚吡咯电容性能的促进作用. 无机盐工业, 2000, 32: 3-4.


个人简介:

   

冯春华,博士、教授、博导。华南理工大学工业废水处理教研所所长。近年来主持国家重点研发计划项目课题与子课题各1项,国家自然科学基金项目5项,广东省自然科学基金/科技计划项目4项,华南理工大学中央高校业务经费4项,企业委托横向项目3项。在Environmental Science and TechnologyWater ResearchEnvironmental PollutionScience of the Total EnvironmentBiosensors and BioelectronicsCarbonJournal of Power SourcesElectrochemistry CommunicationsElectrochimica Acta环境科学与工程、电化学工程领域期刊上共发表SCI论文80余篇;授权发明专利15件,实用新型专利1件;荣获广东省自然科学奖一等奖1项(排名第四)。


授权专利:


    [16] 一种微电场刺激耦合阴极厌氧/阳极好氧实现底泥中多氯联苯去除的方法与装置, 申请时间:2016-11-24, 授权时间:2020-05-22, 发明专利:201611045104.X

    [15] 一种强化微生物电化学脱氮的方法与大阴极室连续流生物电化学反应装置, 申请时间:2016-12-13, 授权时间:2020-05-22, 发明专利:201611148203.0

    [14] 一种利用微生物与铁矿制备掺杂碳催化材料的方法, 申请时间:2016-08-19, 授权时间:2019-06-18, 发明专利:CN201610693620.7

    [13] 利用三电极储存生物电能的装置及其储存生物电能的方法, 申请时间:2016-09-10, 授权时间:2019-04-09, 发明专利:CN201610816217.9

    [12] 一种基于活性污泥驯化的自掺杂碳催化材料的制备方法, 申请时间:2016-05-25, 授权时间:2019-01-29, 发明专利:CN201610357631.8

    [11]一种利用驯化活性污泥制备电容性电极材料的方法,申请时间:2016-05-25,授权时间:2018-10-09,发明专利:CN201610355098.1

    [10]一种基于木质素的电芬顿阴极材料及其制备方法,申请时间:2015-09-10,授权时间:2018-07-20,发明专利:CN201610816216.4

    [9]一种自掺杂微生物燃料电池阳极材料及其制备方法,申请时间:2015-07-31,授权时间:2017-12-19,发明专利:CN201510468208.0

    [8]   利用微生物电解池去除底泥中多氯联苯的装置及方法,申请时间:2015-07-08,授权时间:2017-04-12,发明专利:CN201510401590.3

    [7]   一种3D石墨烯氧化物气凝胶修饰的三维电极刷及其制备方法与应用,授权时间:2014-07-30,授权时间:2016-11-19,发明专利:CN201410371362.1

    [6]   利用微生物燃料电池同时降解苯酚和氨氮的装置及方法,申请时间:2014-07-30,授权时间:2016-11-19,发明专利:CN201410371379.7

    [5]   利用微生物燃料电池去除及回收污水中氨氮的装置及方法,申请时间:2014-07-30,授权时间:2016-11-12,发明专利:CN201410371295.3

    [4]   利用电容性阳极储存生物电能的方法和装置,申请时间:2013-07-31,授权时间:2016-10-05,发明专利:CN201310328037.2

    [3]   微生物燃料电池用石墨烯/导电聚合物阳极的制备方法,申请时间:2013-07-31,授权时间:2016-01-20,发明专利:CN201310328072.4

    [2]   基于微生物电化学信号的便携式水体毒性检测装置,申请时间:2013-07-31,授权时间:2014-07-16,实用新型专利: CN201320463082.4

    [1] 一种微生物燃料电池及其制备方法和应用,申请时间:2009-08-20,授权时间:2011-05-11,实用新型专利: CN200910042038.4