Sebastià Puig scite author profile

This work proves for the first time the bioelectrochemical production of butyrate from CO2 as a sole carbon source. The highest concentration of butyrate achieved was 20.2 mMC, with a maximum butyrate production rate of 1.82 mMC d(-1). The electrochemical characterisation demonstrated that the CO2 reduction to butyrate was hydrogen driven. Production of ethanol and butanol was also observed opening up the potential for biofuel production.

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Electro-Fermentation – Merging Electrochemistry with Fermentation in Industrial Applications

Schievano

Sciarria

Vanbroekhoven

et al. 2016

Trends in Biotechnology

234

125

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On the Edge of Research and Technological Application: A Critical Review of Electromethanogenesis

Blasco-Gómez

Batlle-Vilanova

Villano

et al. 2017

IJMS

172

103

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The conversion of electrical current into methane (electromethanogenesis) by microbes represents one of the most promising applications of bioelectrochemical systems (BES). Electromethanogenesis provides a novel approach to waste treatment, carbon dioxide fixation and renewable energy storage into a chemically stable compound, such as methane. This has become an important area of research since it was first described, attracting different research groups worldwide. Basics of the process such as microorganisms involved and main reactions are now much better understood, and recent advances in BES configuration and electrode materials in lab-scale enhance the interest in this technology. However, there are still some gaps that need to be filled to move towards its application. Side reactions or scaling-up issues are clearly among the main challenges that need to be overcome to its further development. This review summarizes the recent advances made in the field of electromethanogenesis to address the main future challenges and opportunities of this novel process. In addition, the present fundamental knowledge is critically reviewed and some insights are provided to identify potential niche applications and help researchers to overcome current technological boundaries.

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Autotrophic Denitrification in Microbial Fuel Cells Treating Low Ionic Strength Waters

Puig

Coma

Desloover

et al. 2012

Environ. Sci. Technol.

169

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The presence of elevated concentrations of nitrates in drinking water has become a serious concern worldwide. The use of autotrophic denitrification in microbial fuel cells (MFCs) for waters with low ionic strengths (i.e., 1000 μS·cm(-1)) has not been considered previously. This study evaluated the feasibility of MFC technology for water denitification and also identified and quantified potential energy losses that result from their usage. The low conductivity (<1600 μS·cm(-1)) of water limited the nitrogen removal efficiency and power production of MFCs and led to the incomplete reduction of nitrate and the nitrous oxide (N(2)O) production (between 4 and 20% of nitrogen removed). Cathodic overpotential was identified as the main energy loss factors (83-90% of total losses). That high overpotential was influenced by denitrification intermediates (NO(2)(-) and N(2)O) and the potential used by microorganisms for growth, activation, and maintenance.

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Microbial electrosynthesis of butyrate from carbon dioxide: Production and extraction

Batlle-Vilanova

Ganigué

Ramió‐Pujol

et al. 2017

Bioelectrochemistry

171

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Sebastià Puig

Microbial electrosynthesis of butyrate from carbon dioxide

Electro-Fermentation – Merging Electrochemistry with Fermentation in Industrial Applications

On the Edge of Research and Technological Application: A Critical Review of Electromethanogenesis

Autotrophic Denitrification in Microbial Fuel Cells Treating Low Ionic Strength Waters

Microbial electrosynthesis of butyrate from carbon dioxide: Production and extraction

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