Evaluation of Microbial Fuel Cells with Graphite Plus MnO<sub>2</sub>and MoS<sub>2</sub>Paints as Oxygen Reduction Cathode Catalyst

Jiang, Bolong; Muddemann, Thorben; Kunz, Ulrich; Bormann, H.; Niedermeiser, Michael; Haupt, Dennis; Schläfer, O.; Sievers, Michael

doi:10.1149/2.0131703jes

Cited by 37 publications

(39 citation statements)

References 40 publications

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“…Since the cathode is often the limiting electrode in an MFC, new, inexpensive, and non‐toxic catalysts for oxygen reduction are under development. So far, different graphites, platinum, and manganese dioxide have been investigated , .…”

Section: Process Description Of Established Processes and Future Prosmentioning

confidence: 99%

Electrochemical Reactors for Wastewater Treatment

et al. 2019

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Regarding the treatment of (waste)water, electrochemical processes have various advantages over other methods. They are robust, easy to operate and flexible in case of fluctuating wastewater streams. In addition, a relatively broad spectrum of organic and inorganic impurities can be removed. This contribution provides an overview of electrochemical reactors for water, process water, and wastewater treatment, which are already in technical‐scale operation or subject of research. Some essential basics of electrochemical processes for the treatment of water are presented and examples for applications are given. This is followed by a description of the reactors.

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Section: Process Description Of Established Processes and Future Prosmentioning

confidence: 99%

Electrochemical Reactors for Wastewater Treatment

et al. 2019

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“…Für [90,91] Aus den geringen Spannungen und Stromdichten der MBZ ergeben sich im Vergleich zu klassischen, rein chemischen Brennstoffzellen sehr geringe Leistungsdichten von ca. maximal 1 W m -2 [92], weshalb u. a. bisher noch kein kommerzieller Erfolg der mikrobiellen Brennstoffzelle verzeichnet wurde.…”

Section: Mikrobielle Brennstoffzelleunclassified

Elektrochemische Reaktoren für die Wasserbehandlung

Muddemann

Haupt

Sievers

et al. 2019

Chemie Ingenieur Technik

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Bei der Aufbereitung von (Ab-)Wasser haben elektrochemische Verfahren verschiedene Vorteile gegenüber anderen Aufbereitungsmethoden. Sie sind robust, einfach in der Betriebsführung und flexibel bei Schwankungen der Abwasserfracht. Zudem kann ein relativ breites Spektrum an organischen und anorganischen Verunreinigungen entfernt werden. Dieser Beitrag gibt eine Ü bersicht zu den elektrochemischen Reaktoren, die in der Aufbereitung von Wasser, Prozesswasser und Abwasser bereits eingesetzt oder beforscht werden. Es werden zunächst einige wesentliche Grundlagen der elektrochemischen Verfahren zur Behandlung von Wasser vorgestellt und Beispiele für Anwendungen gegeben. Daran schließt sich die Beschreibung der verwendeten Reaktoren an. Schlagwörter: Elektrochemische Reaktoren, Elektrolyse, Mikrobielle Brennstoffzelle, WasserreinigungRegarding the treatment of (waste)water, electrochemical processes have various advantages over other methods. They are robust, easy to operate and flexible in case of fluctuating wastewater load. In addition, a relatively broad spectrum of organic and inorganic impurities can be removed. This contribution provides an overview of electrochemical reactors for water, process water and wastewater treatment, which are already in technical-scale operation or subject of research. Some essential basics of electrochemical processes for the treatment of water are presented and examples for applications are given. This is followed by a description of the reactors.

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“…Usually, the earth abundant transitional metal is atomically dispersed within a carbonaceous substrate rich in nitrogen. Several PGM-free catalysts were presented in literature, and particularly, catalysts based on iron [67], [68], [69], [70], [71], [72], [73], [74], [75], cobalt [76], [77], [78], [79], manganese [80], [81], [82], nickel [83], [84], etc [85], [86] have been investigated as cathode catalysts in the ORR reaction. Among these earth abundant metals, iron and cobalt are particularly alluring due to their higher performances compared to Mn, Ni and al [1], [87], [88].…”

Section: Introductionmentioning

confidence: 99%

Bimetallic platinum group metal-free catalysts for high power generating microbial fuel cells

Kodali

Santoro

Herrera

et al. 2017

Journal of Power Sources

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M1-M2-N-C bimetallic catalysts with M1 as Fe and Co and M2 as Fe, Co, Ni and Mn were synthesized and investigated as cathode catalysts for oxygen reduction reaction (ORR). The catalysts were prepared by Sacrificial Support Method in which silica was the template and aminoantipyrine (AAPyr) was the organic precursor. The electro-catalytic properties of these catalysts were investigated by using rotating ring disk (RRDE) electrode setup in neutral electrolyte. Fe-Mn-AAPyr outperformed Fe-AAPyr that showed higher performances compared to Fe-Co-AAPyr and Fe-Ni-AAPyr in terms of half-wave potential. In parallel, Fe-Co-AAPyr, Co-Mn-AAPyr and Co-Ni-AAPyr outperformed Co-AAPyr. The presence of Co within the catalyst contributed to high peroxide production not desired for efficient ORR. The catalytic capability of the catalysts integrated in air-breathing cathode was also verified. It was found that Co-based catalysts showed an improvement in performance by the addition of second metal compared to simple Co- AAPyr. Fe-based bimetallic materials didn't show improvement compared to Fe-AAPyr with the exception of Fe-Mn-AAPyr catalyst that had the highest performance recorded in this study with maximum power density of 221.8 ± 6.6 μWcm−2. Activated carbon (AC) was used as control and had the lowest performances in RRDE and achieved only 95.6 ± 5.8 μWcm−2 when tested in MFC.

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Evaluation of Microbial Fuel Cells with Graphite Plus MnO₂and MoS₂Paints as Oxygen Reduction Cathode Catalyst

Cited by 37 publications

References 40 publications

Electrochemical Reactors for Wastewater Treatment

Electrochemical Reactors for Wastewater Treatment

Elektrochemische Reaktoren für die Wasserbehandlung

Bimetallic platinum group metal-free catalysts for high power generating microbial fuel cells

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Evaluation of Microbial Fuel Cells with Graphite Plus MnO2and MoS2Paints as Oxygen Reduction Cathode Catalyst

Cited by 37 publications

References 40 publications

Electrochemical Reactors for Wastewater Treatment

Electrochemical Reactors for Wastewater Treatment

Elektrochemische Reaktoren für die Wasserbehandlung

Bimetallic platinum group metal-free catalysts for high power generating microbial fuel cells

Contact Info

Product

Resources

About

Evaluation of Microbial Fuel Cells with Graphite Plus MnO₂and MoS₂Paints as Oxygen Reduction Cathode Catalyst