Add to ORKGIn this paper we explored the use of an electrochemical quartz crystal microbalance (QCM) to follow the development of electrochemically active biofilms on electrodes. With this technique it should be possible to monitor simultaneously the increase in biomass and the current generated by the electrogenic bacteria in the biofilm. We monitored the adsorption and the subsequent growth of bacteria that are used in microbial electrolysis cells, on a gold electrode (anode). After attachment it took about 3 h for the bacteria to start to grow and develop a biofilm. Although the current was still relatively low, there is a clear correlation with the increase in biomass. The method is promising for the further investigation of the development of bio...
International audienceThe decrease in the electrochemical activity of multi‐species microbial anodes...
Vis. Exp. (82), e50800, doi:10.3791/50800 (2013). The growth of anodic electroactive microbial biofi...
The fast and non-destructive detection of bacterial attachment on food contact surfaces is important...
In this paper we explored the use of an electrochemical quartz crystal microbalance (QCM) to follow ...
BioElectrochemical Systems are an emerging technology of interest. Central to the successful operati...
The development of an electrochemical detector to monitor the in situ formation of biofilms is descr...
In this paper we report the anaerobic Escherichia coli biofilm formation on solid substrate under re...
Bacterial biofilms are a major cause of harm related to medical infections and biofouling. Thus, 80%...
© 2019 IEEE. Personal use of this material is permitted. Permission from IEEE must be obtained for a...
The effect of experimental conditions on cyclic voltammetry experiments on platinum electrodescovere...
The effect of experimental conditions on cyclic voltammetry experiments on platinum electrodes cover...
International audienceUnderstanding and sensing microbial biofilm formation onto surfaces remains hi...
The presence of bacteria forming biofilm is pervasive in our daily life and may lead to beneficial e...
The attachment and biofilm formation by bacteria on surfaces are of interest due to its potential in...
Electroactive microbial biofilms and the microorganisms embedded therein are not only of crucial fun...
International audienceThe decrease in the electrochemical activity of multi‐species microbial anodes...
Vis. Exp. (82), e50800, doi:10.3791/50800 (2013). The growth of anodic electroactive microbial biofi...
The fast and non-destructive detection of bacterial attachment on food contact surfaces is important...
In this paper we explored the use of an electrochemical quartz crystal microbalance (QCM) to follow ...
BioElectrochemical Systems are an emerging technology of interest. Central to the successful operati...
The development of an electrochemical detector to monitor the in situ formation of biofilms is descr...
In this paper we report the anaerobic Escherichia coli biofilm formation on solid substrate under re...
Bacterial biofilms are a major cause of harm related to medical infections and biofouling. Thus, 80%...
© 2019 IEEE. Personal use of this material is permitted. Permission from IEEE must be obtained for a...
The effect of experimental conditions on cyclic voltammetry experiments on platinum electrodescovere...
The effect of experimental conditions on cyclic voltammetry experiments on platinum electrodes cover...
International audienceUnderstanding and sensing microbial biofilm formation onto surfaces remains hi...
The presence of bacteria forming biofilm is pervasive in our daily life and may lead to beneficial e...
The attachment and biofilm formation by bacteria on surfaces are of interest due to its potential in...
Electroactive microbial biofilms and the microorganisms embedded therein are not only of crucial fun...
International audienceThe decrease in the electrochemical activity of multi‐species microbial anodes...
Vis. Exp. (82), e50800, doi:10.3791/50800 (2013). The growth of anodic electroactive microbial biofi...
The fast and non-destructive detection of bacterial attachment on food contact surfaces is important...