Industrially scalable surface treatments to enhance the current density output from graphite bioanodes fueled by real domestic wastewater

Industrially scalable surface treatments to enhance the current density output from graphite bioanodes fueled by real domestic wastewater

Summary: Acid and electrochemical surface treatments of graphite electrode, used individually or in combination, significantly improved the microbial anode current production, by +17% to +56%, in well-regulated and duplicated electroanalytical experimental systems.Of all the consequences induced by...

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Main Authors: Emma Roubaud, Rémy Lacroix, Serge Da Silva, Jérôme Esvan, Luc Etcheverry, Alain Bergel, Régine Basséguy, Benjamin Erable
Format: Article
Language:English
Published: Elsevier 2021-03-01
Series:iScience
Subjects:
Electrochemistry
Microbiofilms
Surface Science
Online Access:http://www.sciencedirect.com/science/article/pii/S2589004221001309
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spelling doaj-2c2bab291b83463ebd51e748e53b171e2021-03-22T12:51:50ZengElsevieriScience2589-00422021-03-01243102162Industrially scalable surface treatments to enhance the current density output from graphite bioanodes fueled by real domestic wastewaterEmma Roubaud0Rémy Lacroix1Serge Da Silva2Jérôme Esvan3Luc Etcheverry4Alain Bergel5Régine Basséguy6Benjamin Erable7Laboratoire de Génie Chimique, Université de Toulouse, CNRS, INPT, UPS, Toulouse, France6T-MIC Ingénieries, 9 rue du développement – ZI de Vic, 31320 Castanet-Tolosan, France6T-MIC Ingénieries, 9 rue du développement – ZI de Vic, 31320 Castanet-Tolosan, FranceCirimat, Université de Toulouse, CNRS-INP-UPS, 4 allée Emile MONSO, BP 44362, 31030 Toulouse, FranceLaboratoire de Génie Chimique, Université de Toulouse, CNRS, INPT, UPS, Toulouse, FranceLaboratoire de Génie Chimique, Université de Toulouse, CNRS, INPT, UPS, Toulouse, FranceLaboratoire de Génie Chimique, Université de Toulouse, CNRS, INPT, UPS, Toulouse, FranceLaboratoire de Génie Chimique, Université de Toulouse, CNRS, INPT, UPS, Toulouse, France; Corresponding authorSummary: Acid and electrochemical surface treatments of graphite electrode, used individually or in combination, significantly improved the microbial anode current production, by +17% to +56%, in well-regulated and duplicated electroanalytical experimental systems.Of all the consequences induced by surface treatments, the modifications of the surface nano-topography preferentially justify an improvement in the fixation of bacteria, and an increase of the specific surface area and the electrochemically accessible surface of graphite electrodes, which are at the origin of the higher performances of the bioanodes supplied with domestic wastewater. The evolution of the chemical composition and the appearance of C-O, C=O, and O=C-O groups on the graphite surface created by combining acid and electrochemical treatments was prejudicial to the formation of efficient domestic-wastewater-oxidizing bioanodes. The comparative discussion, focused on the positioning of the performances, shows the industrial interest of applying the surface treatment method to the world of bioelectrochemical systems.http://www.sciencedirect.com/science/article/pii/S2589004221001309ElectrochemistryMicrobiofilmsSurface Science
collection DOAJ
language English
format Article
sources DOAJ
author Emma Roubaud
Rémy Lacroix
Serge Da Silva
Jérôme Esvan
Luc Etcheverry
Alain Bergel
Régine Basséguy
Benjamin Erable
spellingShingle Emma Roubaud
Rémy Lacroix
Serge Da Silva
Jérôme Esvan
Luc Etcheverry
Alain Bergel
Régine Basséguy
Benjamin Erable
Industrially scalable surface treatments to enhance the current density output from graphite bioanodes fueled by real domestic wastewater
iScience
Electrochemistry
Microbiofilms
Surface Science
author_facet Emma Roubaud
Rémy Lacroix
Serge Da Silva
Jérôme Esvan
Luc Etcheverry
Alain Bergel
Régine Basséguy
Benjamin Erable
author_sort Emma Roubaud
title Industrially scalable surface treatments to enhance the current density output from graphite bioanodes fueled by real domestic wastewater
title_short Industrially scalable surface treatments to enhance the current density output from graphite bioanodes fueled by real domestic wastewater
title_full Industrially scalable surface treatments to enhance the current density output from graphite bioanodes fueled by real domestic wastewater
title_fullStr Industrially scalable surface treatments to enhance the current density output from graphite bioanodes fueled by real domestic wastewater
title_full_unstemmed Industrially scalable surface treatments to enhance the current density output from graphite bioanodes fueled by real domestic wastewater
title_sort industrially scalable surface treatments to enhance the current density output from graphite bioanodes fueled by real domestic wastewater
publisher Elsevier
series iScience
issn 2589-0042
publishDate 2021-03-01
description Summary: Acid and electrochemical surface treatments of graphite electrode, used individually or in combination, significantly improved the microbial anode current production, by +17% to +56%, in well-regulated and duplicated electroanalytical experimental systems.Of all the consequences induced by surface treatments, the modifications of the surface nano-topography preferentially justify an improvement in the fixation of bacteria, and an increase of the specific surface area and the electrochemically accessible surface of graphite electrodes, which are at the origin of the higher performances of the bioanodes supplied with domestic wastewater. The evolution of the chemical composition and the appearance of C-O, C=O, and O=C-O groups on the graphite surface created by combining acid and electrochemical treatments was prejudicial to the formation of efficient domestic-wastewater-oxidizing bioanodes. The comparative discussion, focused on the positioning of the performances, shows the industrial interest of applying the surface treatment method to the world of bioelectrochemical systems.
topic Electrochemistry
Microbiofilms
Surface Science
url http://www.sciencedirect.com/science/article/pii/S2589004221001309
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AT remylacroix industriallyscalablesurfacetreatmentstoenhancethecurrentdensityoutputfromgraphitebioanodesfueledbyrealdomesticwastewater
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