Nanorod CoFe2O4 modified activated carbon as an efficient electrocatalyst to improve the performance of air cathode microbial fuel cell

Ren Chao; Li Kexun; Lv Cuicui; Zhao Yong; Wang Junjie; Guo Shuai

首页> 外文期刊>Journal of Electroanalytical Chemistry: An International Journal Devoted to All Aspects of Electrode Kinetics, Interfacial Structure, Properties of Electrolytes, Colloid and Biological Electrochemistry >Nanorod CoFe2O4 modified activated carbon as an efficient electrocatalyst to improve the performance of air cathode microbial fuel cell

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Nanorod CoFe2O4 modified activated carbon as an efficient electrocatalyst to improve the performance of air cathode microbial fuel cell

机译：Nanorod Cofe2O4改性活性炭作为一种有效的电催化剂，以提高空气阴极微生物燃料电池的性能

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Nanorod-like CoFe2O4 was synthesized via hydrothermal technique and subsequent annealing process. The CoFe2O4 was doped in activated carbon (AC) as air cathode catalyst in microbial fuel cell (MFC). The obtained maximum power density (MPD) of MFC with 10% CoFe2O4 reached as high as 1780 +/- 20 mW m(-2), which was 1.99 times higher than that with bare AC. The electrochemical studies showed that CoFe2O4-doped AC exhibited superior kinetic activity of electron transfer and low resistance through four-electron reaction pathway. CoFe2O4 introduced binary metal as active sites during the oxidative recombination of the metal mixture. Besides, the first principle calculations proved that CoFe2O4 had better ORR activity comparing with Co3O4 and Fe3O4. It is verified experimentally and theoretically that CoFe2O4 will be an excellent cathodic catalyst in MFC.

机译：通过水热技术和随后的退火工艺合成纳米棒状COFE2O4。 COFE2O4在微生物燃料电池（MFC）中作为空气阴极催化剂掺杂活性炭（AC）。获得的MFC的最大功率密度（MPD）具有10％COFE2O4的高达1780 +/-20 mw m（-2），其比裸ac为1.99倍。电化学研究表明，Cofe2O4掺杂的AC通过四电子反应途径表现出电子转移和低抗性的优异动力活性。 CoFe2O4在金属混合物的氧化重组期间引入二元金属作为活性位点。此外，第一个原理计算证明CoFe2O4与CO3O4和Fe3O4相比具有更好的ORR活性。通过实验和理论上验证，CoFe2O4将是MFC中的优异阴极催化剂。

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《Journal of Electroanalytical Chemistry: An International Journal Devoted to All Aspects of Electrode Kinetics, Interfacial Structure, Properties of Electrolytes, Colloid and Biological Electrochemistry》 |2019年第2019期|共10页
作者
Ren Chao; Li Kexun; Lv Cuicui; Zhao Yong; Wang Junjie; Guo Shuai;
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作者单位

Nankai Univ Coll Environm Sci &

Engn Tianjin 300071 Peoples R China;

Nankai Univ Coll Environm Sci &

Engn Tianjin 300071 Peoples R China;

Nankai Univ Coll Environm Sci &

Engn Tianjin 300071 Peoples R China;

China Inst Water Resources &

Hydropower Res State Key Lab Simulat &

Regulat Water Cycle River Beijing 100038 Peoples R China;

Nankai Univ Coll Environm Sci &

Engn Tianjin 300071 Peoples R China;

Nankai Univ Coll Environm Sci &

Engn Tianjin 300071 Peoples R China;

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正文语种 eng
中图分类分析化学;
关键词
Nanorod CoFe2O4; Oxygen reduction reaction; Microbial fuel cell; Density functional theory (DFT);

机译：Nanorod Cofe2O4;氧还原反应;微生物燃料电池;密度泛函理论（DFT）;

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1. Nanorod CoFe2O4 modified activated carbon as an efficient electrocatalyst to improve the performance of air cathode microbial fuel cell [J] . Ren Chao, Li Kexun, Lv Cuicui, Journal of Electroanalytical Chemistry: An International Journal Devoted to All Aspects of Electrode Kinetics, Interfacial Structure, Properties of Electrolytes, Colloid and Biological Electrochemistry . 2019,第期

机译：Nanorod Cofe2O4改性活性炭作为一种有效的电催化剂，以提高空气阴极微生物燃料电池的性能
2. Improved performance of membrane free single-chamber air-cathode microbial fuel cells with nitric acid and ethylenediamine surface modified activated carbon fiber felt anodes [J] . Zhu N., Chen X., Zhang T., Bioresource Technology: Biomass, Bioenergy, Biowastes, Conversion Technologies, Biotransformations, Production Technologies . 2011,第1期

机译：具有硝酸和乙二胺表面改性活性炭纤维毡阳极的无膜单室空气阴极微生物燃料电池的性能改善
3. Bimetallic metal-organic frameworks derived cobalt nanoparticles embedded in nitrogen-doped carbon nanotube nanopolyhedra as advanced electrocatalyst for high-performance of activated carbon air-cathode microbial fuel cell [J] . Zhang Song, Su Wei, Wang Xiaojing, Biosensors & Bioelectronics: The International Journal for the Professional Involved with Research, Technology and Applications of Biosensers and Related Devices . 2019,第期

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4. Treatment of carbon fiber brush anodes for improving power generation in air-cathode microbial fuel cells [C] . Yujie Feng, Qiao Yang, Xin Wang The Second symposium on microbial fuel cell in China . 2009

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5. Characterization and performance of activated carbon catalysts and polymer membrane layers for microbial fuel cell cathodes and an analysis of power overshoot. [D] . Watson, Valerie Jo. 2013

机译：用于微生物燃料电池阴极的活性炭催化剂和聚合物膜层的表征和性能，以及功率过冲的分析。
6. Promoting the bio-cathode formation of a constructed wetland-microbial fuel cell by using powder activated carbon modified alum sludge in anode chamber [O] . Lei Xu, Yaqian Zhao, Liam Doherty, -1

机译：通过在阳极室中使用粉末活性炭改性的氧化铝污泥促进人工湿地微生物燃料电池的生物阴极形成
7. Use of Pyrolyzed Iron Ethylenediaminetetraacetic Acid Modified Activated Carbon as Air−Cathode Catalyst in Microbial Fuel Cells [O] . Xue Xia, Fang Zhang, Xiaoyuan Zhang, 2016

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8. Theoretical Design and Experimental Evaluation of Molten Carbonate Modified LSM Cathode for Low Temperature Solid Oxide Fuel Cells. [R] . Qin, C., Huang, K. 2015

机译：低温固体氧化物燃料电池熔融碳酸盐改性Lsm阴极的理论设计与实验评价。

Nanorod CoFe2O4 modified activated carbon as an efficient electrocatalyst to improve the performance of air cathode microbial fuel cell

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