Power generation using spinel manganese-cobalt oxide as a cathode catalyst for microbial fuel cell applications

Mahmoud M.; Gad-Allah T.A.; El-Khatib K.M.; El-Gohary F.

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Power generation using spinel manganese-cobalt oxide as a cathode catalyst for microbial fuel cell applications

机译：使用尖晶石锰钴氧化物作为微生物燃料电池应用的阴极催化剂进行发电

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This study focused on the use of spinel manganese-cobalt (Mn-Co) oxide, prepared by a solid state reaction, as a cathode catalyst to replace platinum in microbial fuel cells (MFCs) applications. Spinel Mn-Co oxides, with an Mn/Co atomic ratios of 0.5, 1, and 2, were prepared and examined in an air cathode MFCs which was fed with a molasses-laden synthetic wastewater and operated in batch mode. Among the three Mn-Co oxide cathodes and after 300h of operation, the Mn-Co oxide catalyst with Mn/Co atomic ratio of 2 (MnCo-2) exhibited the highest power generation 113mW/m~2 at cell potential of 279mV, which were lower than those for the Pt catalyst (148mW/m~2 and 325mV, respectively). This study indicated that using spinel Mn-Co oxide to replace platinum as a cathodic catalyst enhances power generation, increases contaminant removal, and substantially reduces the cost of MFCs.

机译：这项研究的重点是通过固态反应制备的尖晶石锰钴氧化物（Mn-Co）作为阴极催化剂来代替微生物燃料电池（MFCs）应用中的铂。制备了具有Mn / Co原子比为0.5、1和2的尖晶石Mn-Co氧化物，并在空气阴极MFC中进行了检查，该MFC中加入了糖蜜含量较高的合成废水，并分批运行。在三个Mn-Co氧化物阴极中，并且在运行300h之后，Mn / Co原子比为2（MnCo-2）的Mn-Co氧化物催化剂在279mV的电池电势下表现出最高的发电量113mW / m〜2。低于Pt催化剂（分别为148mW / m〜2和325mV）。这项研究表明，使用尖晶石型Mn-Co氧化物代替铂作为阴极催化剂可提高发电量，增加污染物去除并显着降低MFC的成本。

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《Bioresource Technology: Biomass, Bioenergy, Biowastes, Conversion Technologies, Biotransformations, Production Technologies 》 |2011年第22期| 共6页
作者
Mahmoud M.; Gad-Allah T.A.; El-Khatib K.M.; El-Gohary F.;
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正文语种 eng
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Cathode catalyst; Manganese-cobalt oxide; Microbial fuel cells; Oxygen reduction reaction; Power generation;

机译：阴极催化剂锰钴氧化物微生物燃料电池氧还原反应发电;

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1. Power generation using spinel manganese-cobalt oxide as a cathode catalyst for microbial fuel cell applications [J] . Mahmoud M., Gad-Allah T.A., El-Khatib K.M., Bioresource Technology: Biomass, Bioenergy, Biowastes, Conversion Technologies, Biotransformations, Production Technologies . 2011 ,第22期

机译：使用尖晶石锰钴氧化物作为微生物燃料电池应用的阴极催化剂进行发电
2. Application of graphene-based nanomaterials as novel cathode catalysts for improving power generation in single chamber microbial fuel cells [J] . Valipour Alireza, Ayyaru Sivasankaran, Ahn Youngho Journal of power sources . 2016 ,第sepa30期

机译：石墨烯基纳米材料作为新型阴极催化剂用于改善单室微生物燃料电池发电的应用
3. Graphene oxide supported magnesium oxide as an efficient cathode catalyst for power generation and wastewater treatment in single chamber microbial fuel cells [J] . Li Meng, Zhou Shaoqi, Xu Mingyi Chemical engineering journal . 2017 ,第期

机译：石墨烯氧化物负载氧化镁作为单室微生物燃料电池中发电和废水处理的有效阴极催化剂
4. MANGANESE-COBALT SPINEL OXIDES AS SURFACE MODIFIERS FOR STAINLESS STEEL INTERCONNECTS OF SOLID OXIDE FUEL CELLS [C] . Guanguang Xia, Zhenguo Yang, Jeffry W. Stevenson International Symposium on Solid State Ionic Devices . 2006

机译：锰 - 钴尖晶石氧化物作为用于固体氧化物燃料电池的不锈钢互连的表面改性剂
5. The performance of perovskites and spinels as catalysts for oxygen reduction in solid oxide fuel cell cathodes [D] . Martin, Boris E. 2007

机译：钙钛矿和尖晶石作为固体氧化物燃料电池阴极中氧气还原催化剂的性能
6. Power generation in microbial fuel cells using platinum group metal-free cathode catalyst: Effect of the catalyst loading on performance and costs [O] . Carlo Santoro, Mounika Kodali, Sergio Herrera, -1

机译：使用不含铂族金属的阴极催化剂在微生物燃料电池中发电：催化剂负载对性能和成本的影响
7. Power Densities Using Different Cathode Catalysts (Pt and CoTMPP) and Polymer Binders (Nafion and PTFE) in Single Chamber Microbial Fuel Cells [O] . -1

机译：单室微生物燃料电池中使用不同阴极催化剂（PT和COTMPP）和聚合物粘合剂（Nafion和PTFE）的功率密度
8. Catalysts for ultrahigh current density oxygen cathodes for space fuel cell applications [R] . Tryk, Donald A., Yeager, E. 1992

机译：用于空间燃料电池应用的超高电流密度氧阴极的催化剂

Power generation using spinel manganese-cobalt oxide as a cathode catalyst for microbial fuel cell applications

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