Literature DB >> 16999089

A bipolar membrane combined with ferric iron reduction as an efficient cathode system in microbial fuel cells.

Annemiek Ter Heijne1, Hubertus V M Hamelers, Vinnie De Wilde, René A Rozendal, Cees J N Buisman.   

Abstract

There is a need for alternative catalysts for oxygen reduction in the cathodic compartment of a microbial fuel cell (MFC). In this study, we show that a bipolar membrane combined with ferric iron reduction on a graphite electrode is an efficient cathode system in MFCs. A flat plate MFC with graphite felt electrodes, a volume of 1.2 L and a projected surface area of 290 cm2 was operated in continuous mode. Ferric iron was reduced to ferrous iron in the cathodic compartment according to Fe(3+) + e(-) --> Fe2+ (E0 = +0.77 V vs NHE, normal hydrogen electrode). This reversible electron transfer reaction considerably reduced the cathode overpotential. The low catholyte pH required to keep ferric iron soluble was maintained by using a bipolar membrane instead of the commonly used cation exchange membrane. For the MFC with cathodic ferric iron reduction, the maximum power density was 0.86 W/m2 at a current density of 4.5 A/m2. The Coulombic efficiency and energy recovery were 80-95% and 18-29% respectively.

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Year:  2006        PMID: 16999089     DOI: 10.1021/es0608545

Source DB:  PubMed          Journal:  Environ Sci Technol        ISSN: 0013-936X            Impact factor:   9.028


  14 in total

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Review 2.  Possibilities for extremophilic microorganisms in microbial electrochemical systems.

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3.  Membrane-based processes for sustainable power generation using water.

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5.  Microbial communities and electrochemical performance of titanium-based anodic electrodes in a microbial fuel cell.

Authors:  Urania Michaelidou; Annemiek ter Heijne; Gerrit Jan W Euverink; Hubertus V M Hamelers; Alfons J M Stams; Jeanine S Geelhoed
Journal:  Appl Environ Microbiol       Date:  2010-12-03       Impact factor: 4.792

6.  Long-term performance of a plant microbial fuel cell with Spartina anglica.

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7.  High Power Generation with Reducing Agents Using Compost Soil as a Novel Electrocatalyst for Ammonium Fuel Cells.

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8.  High rate copper and energy recovery in microbial fuel cells.

Authors:  Pau Rodenas Motos; Annemiek Ter Heijne; Renata van der Weijden; Michel Saakes; Cees J N Buisman; Tom H J A Sleutels
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9.  A lithotrophic microbial fuel cell operated with pseudomonads-dominated iron-oxidizing bacteria enriched at the anode.

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Review 10.  100 years of microbial electricity production: three concepts for the future.

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Journal:  Microb Biotechnol       Date:  2011-09-29       Impact factor: 5.813
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