Electrical Stress-Directed Evolution of Biocatalyst Texcoco Soil Community for Microbial Fuel Cell

Abstract: Anode-respiring bacteria (ARB) perform an unusual form of respiration in which their electron acceptor is a solid anode. The focus of this study was to characterize the electrical stress direct evolution of biocatalysts as a way of enriching the community with ARB for microbial fuel cell. We gave the electrical stress continually to the Texcoco bacterial community at -150mV/SCE. The 4th day current started to increase and attained the maximum current of 0.35mA in the 15 th day. The current in this period was a… Show more

“…Our earlier work reported the performance of the SCMFC seeded with electroactive sodic-saline inocula which gave a maximum power density of 79 mWm -2 [1,9]. The power density in the present work was higher than those of MFCs operated at hypersaline inoculum (0.06 mWm -2 ) [10] with alkalophilic Corynebacterium sp.…”

Anodic Bio-Electrochemical Process of Sodic-Saline Micro flora for Microbial Fuel Cells

“…Our earlier work reported the performance of the SCMFC seeded with electroactive sodic-saline inocula which gave a maximum power density of 79 mWm -2 [1,9]. The power density in the present work was higher than those of MFCs operated at hypersaline inoculum (0.06 mWm -2 ) [10] with alkalophilic Corynebacterium sp.…”

Anodic Bio-Electrochemical Process of Sodic-Saline Micro flora for Microbial Fuel Cells