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Monophyletic group of unclassified γ-Proteobacteria dominates in mixed culture biofilm of high-performing oxygen reducing biocathode

(2015) BIOELECTROCHEMISTRY. 106. p.167-176
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  • PLANTPOWER (Living plants in microbial fuel cells for clean, renewable, sustainable, efficient, in-situ bioenergy production)
Keywords
454 amplicon sequencing, Biocathode, Microbial fuel cell, Biofilm, Oxygen reduction, MICROBIAL FUEL-CELLS, 16S RIBOSOMAL-RNA, ACTIVATED-SLUDGE, ELECTROCHEMICAL REDUCTION, IN-SITU, BACTERIA, SURFACE, ELECTRICITY, IDENTIFICATION, POPULATIONS

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Citation

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MLA
Rothballer, Michael et al. “Monophyletic Group of Unclassified γ-Proteobacteria Dominates in Mixed Culture Biofilm of High-performing Oxygen Reducing Biocathode.” Ed. Sergey Shleev, Lo Gorton, & Alain Bergel. BIOELECTROCHEMISTRY 106 (2015): 167–176. Print.
APA
Rothballer, M., Picot, M., Sieper, T., Arends, J., Schmid, M., Hartmann, A., Boon, N., et al. (2015). Monophyletic group of unclassified γ-Proteobacteria dominates in mixed culture biofilm of high-performing oxygen reducing biocathode. (S. Shleev, L. Gorton, & A. Bergel, Eds.)BIOELECTROCHEMISTRY, 106, 167–176.
Chicago author-date
Rothballer, Michael, Matthieu Picot, Tina Sieper, Jan Arends, Michael Schmid, Anton Hartmann, Nico Boon, Cees JN Buisman, Frédéric Barrière, and David PBTB Strik. 2015. “Monophyletic Group of Unclassified γ-Proteobacteria Dominates in Mixed Culture Biofilm of High-performing Oxygen Reducing Biocathode.” Ed. Sergey Shleev, Lo Gorton, and Alain Bergel. Bioelectrochemistry 106: 167–176.
Chicago author-date (all authors)
Rothballer, Michael, Matthieu Picot, Tina Sieper, Jan Arends, Michael Schmid, Anton Hartmann, Nico Boon, Cees JN Buisman, Frédéric Barrière, and David PBTB Strik. 2015. “Monophyletic Group of Unclassified γ-Proteobacteria Dominates in Mixed Culture Biofilm of High-performing Oxygen Reducing Biocathode.” Ed. Sergey Shleev, Lo Gorton, and Alain Bergel. Bioelectrochemistry 106: 167–176.
Vancouver
1.
Rothballer M, Picot M, Sieper T, Arends J, Schmid M, Hartmann A, et al. Monophyletic group of unclassified γ-Proteobacteria dominates in mixed culture biofilm of high-performing oxygen reducing biocathode. Shleev S, Gorton L, Bergel A, editors. BIOELECTROCHEMISTRY. 2015;106:167–76.
IEEE
[1]
M. Rothballer et al., “Monophyletic group of unclassified γ-Proteobacteria dominates in mixed culture biofilm of high-performing oxygen reducing biocathode,” BIOELECTROCHEMISTRY, vol. 106, pp. 167–176, 2015.
@article{5942464,
  author       = {Rothballer, Michael and Picot, Matthieu and Sieper, Tina and Arends, Jan and Schmid, Michael and Hartmann, Anton and Boon, Nico and Buisman, Cees JN and Barrière, Frédéric and Strik, David PBTB},
  editor       = {Shleev, Sergey and Gorton, Lo and Bergel, Alain},
  issn         = {1567-5394},
  journal      = {BIOELECTROCHEMISTRY},
  keywords     = {454 amplicon sequencing,Biocathode,Microbial fuel cell,Biofilm,Oxygen reduction,MICROBIAL FUEL-CELLS,16S RIBOSOMAL-RNA,ACTIVATED-SLUDGE,ELECTROCHEMICAL REDUCTION,IN-SITU,BACTERIA,SURFACE,ELECTRICITY,IDENTIFICATION,POPULATIONS},
  language     = {eng},
  pages        = {167--176},
  title        = {Monophyletic group of unclassified γ-Proteobacteria dominates in mixed culture biofilm of high-performing oxygen reducing biocathode},
  url          = {http://dx.doi.org/10.1016/j.bioelechem.2015.04.004},
  volume       = {106},
  year         = {2015},
}

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