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石墨烯/聚苯胺修饰阴极对反硝化MFC性能影响
引用本文:赵婷,钱子牛,易越,谢倍珍,刘红. 石墨烯/聚苯胺修饰阴极对反硝化MFC性能影响[J]. 中国环境科学, 2020, 40(12): 5290-5298
作者姓名:赵婷  钱子牛  易越  谢倍珍  刘红
作者单位:北京航空航天大学生物与医学工程学院, 环境生物学与生命保障技术研究所, 北京 100083
基金项目:国家自然科学基金资助项目(31770135)
摘    要:反硝化生物阴极微生物燃料电池(MFC)以电极为电子供体,在自养条件下完成硝酸盐去除过程.本研究以碳布(CC)为基底材料,分别制备获得还原氧化石墨烯修饰(rGO-CC),聚苯胺修饰(PANI-CC)及二者复合修饰的CC电极(rGO/PANI-CC),并考察其作为阴极材料对反硝化生物阴极MFC产电脱氮性能的影响.扫描电镜结果显示,rGO-CC和PANI-CC的碳纤维分别被片层状rGO和网状PANI覆盖,而rGO/PANI-CC表面呈现PANI在附着rGO的碳纤维上团聚的形貌,均增大了碳布的比表面积.循环伏安测试显示,rGO/PANI-CC具有最高的电化学活性.以rGO-CC,PANI-CC和rGO/PANI-CC为阴极构建MFC的产电能力分别提高了82%,24%和41%,其阴极对NO3--N的去除能力增强了23%,9%和13%.16S rDNA测序结果揭示修饰后电极表面微生物的多样性下降,StappiaPacacoccus属微生物的丰度增加.

关 键 词:微生物燃料电池  生物阴极  反硝化  石墨烯  聚苯胺  
收稿时间:2020-04-03

Effect of graphene/polyaniline composite modified cathode on performance of MFC with denitrification biocathode
ZHAO Ting,QIAN Zi-niu,YI Yue,XIE Bei-zhen,LIU Hong. Effect of graphene/polyaniline composite modified cathode on performance of MFC with denitrification biocathode[J]. China Environmental Science, 2020, 40(12): 5290-5298
Authors:ZHAO Ting  QIAN Zi-niu  YI Yue  XIE Bei-zhen  LIU Hong
Affiliation:Institute of Environmental Biology and Life Support Technology, School of Biological Science and Medical Engineering, Beihang University, Beijing 100083, China
Abstract:In denitrifying microbial fuel cells (MFCs), the biocathode is the electron donor and nitrate is removed in autotrophic conditions. Reduced graphene oxide modified carbon cloth (rGO-CC), polyaniline modified CC (PANI-CC), and rGO/PANI composite modified CC (rGO/PANI-CC) were prepared, and the electricity and the denitrification performances of MFCs with modified CC as cathodes were evaluated. Scanning electron microscopy analysis revealed that the carbon fibers of rGO-CC and PANI-CC were covered by lamellar rGO and reticular PANI, respectively, while PANI agglomerated on the rGO-covered carbon fibers for rGO/PANI-CC; both of which increased the specific surface area of CC. Cyclic voltammetry tests showed the rGO/PANI-CC had the highest electrochemical activity. The electricity performances of MFCs with rGO-CC, PANI-CC and rGO/PANI-CC as cathodes were improved by 82%, 24% and 41%, and the cathodic denitrification rates were enhanced by 23%, 9% and 13%, respectively. The 16S rDNA sequencing results demonstrated the α-diversity index of electrode-attached microorganisms on modified CC decreased, and the relative abundances of Stappia and Pacacoccus increased.
Keywords:microbial fuel cell  biocathode  denitrification  graphene  polyaniline  
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