This study evaluated the bacterial diversity associated with biofilms formed on the anode of microbial fuel cells (MFC), by analyzing the 16S rRNA gene and observations by scanning electron microscopy. Single chambered MFC were constructed and kept in operation for 30 days using environmental samples as inoculum and sole energy substrate; the MFC were monitored as a function of energy production in the course of the experiment; at endpoint, molecular characterization and observations using scanning electron microscopy was performed to the formed biofilms. Values of maximum power density of 4.85 mW/m2 for domestic wastewater and 1.85 mW/m2 in the case of industrial wastewater are reported, with declines of 71 % of the BOD for domestic wastew...
Abstract: The characterization of anodic microbial communities is of great importance in the study o...
This study examines changes in diversity and abundance of bacteria recovered from the anodes of micr...
In the present study, fast formation and characterization of biofilm and its role on power generatio...
Abstract Background The flame-oxidized stainless steel anode (FO-SSA) is a newly developed electrode...
Molecular ecological techniques were applied to analyze the bacterial diversity of two oligotrophic ...
The combined processes of microbial biodegradation accompanied by extracellular electron transfer ma...
Aims: To characterize bacterial populations and their activities within a microbial fuel cell (MFC)...
International audienceIn order to optimize energy production in MFCs, a better understanding of anod...
Microbial fuel cells (MFC) are very promising for bioelectricity generation and bioremediation, whic...
This study investigated the effect of external resistance (Rext) on the dynamic evolution of microbi...
The performance and dynamics of the bacterial communities in the biofilm and suspended culture in th...
This study investigated the microbial community structure on the anode surface of four dual chamber ...
AbstractIn this study the influence of the external circuit resistance on the metabolic behaviour of...
International audienceMicrobial Fuel Cells (MFCs) are being developed as a novel biotechnology to ha...
The Microbial fuel cell (MFC) technology harnesses the potential of some naturally occurring bacteri...
Abstract: The characterization of anodic microbial communities is of great importance in the study o...
This study examines changes in diversity and abundance of bacteria recovered from the anodes of micr...
In the present study, fast formation and characterization of biofilm and its role on power generatio...
Abstract Background The flame-oxidized stainless steel anode (FO-SSA) is a newly developed electrode...
Molecular ecological techniques were applied to analyze the bacterial diversity of two oligotrophic ...
The combined processes of microbial biodegradation accompanied by extracellular electron transfer ma...
Aims: To characterize bacterial populations and their activities within a microbial fuel cell (MFC)...
International audienceIn order to optimize energy production in MFCs, a better understanding of anod...
Microbial fuel cells (MFC) are very promising for bioelectricity generation and bioremediation, whic...
This study investigated the effect of external resistance (Rext) on the dynamic evolution of microbi...
The performance and dynamics of the bacterial communities in the biofilm and suspended culture in th...
This study investigated the microbial community structure on the anode surface of four dual chamber ...
AbstractIn this study the influence of the external circuit resistance on the metabolic behaviour of...
International audienceMicrobial Fuel Cells (MFCs) are being developed as a novel biotechnology to ha...
The Microbial fuel cell (MFC) technology harnesses the potential of some naturally occurring bacteri...
Abstract: The characterization of anodic microbial communities is of great importance in the study o...
This study examines changes in diversity and abundance of bacteria recovered from the anodes of micr...
In the present study, fast formation and characterization of biofilm and its role on power generatio...
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