RETRACTED: Effect of Geobacter metallireducens nanowire on electron transfer efficiency in microbial fuel cell

Abstract: BACKGROUND: To understand the effect of electron shuttle compounds on the electron transfer behavior of MFC and the formation process of microbially fabricated nanowires. In this paper, 2,6-anthraquinone desulfonation (AQDS) and Fe(OH) 3 were used as electron mediator and electron acceptor, respectively, to study the effect of electron mediator on the formation of bionanowires during the growth of Geobacter metallireducens in the double chamber MFC reactor (MFC), and the effects of electron transfer efficiency… Show more

“…Glucose, starch, sucrose, and lactate [47] The basic property of microorganisms that allows their use in bioelectric systems [48][49][50] is their ability to produce electroactive compounds, as well as to use an anode as an electron acceptor. Moreover, the use of inorganic anions as an electron acceptor makes it possible to reduce the salinity of treated wastewater [51,52], for example, when using sulfate-reducing bacteria that are capable of the assimilatory reduction of sulfates to sulfides [53].…”

State of the Art and Environmental Aspects of Plant Microbial Fuel Cells’ Application

“…Glucose, starch, sucrose, and lactate [47] The basic property of microorganisms that allows their use in bioelectric systems [48][49][50] is their ability to produce electroactive compounds, as well as to use an anode as an electron acceptor. Moreover, the use of inorganic anions as an electron acceptor makes it possible to reduce the salinity of treated wastewater [51,52], for example, when using sulfate-reducing bacteria that are capable of the assimilatory reduction of sulfates to sulfides [53].…”

State of the Art and Environmental Aspects of Plant Microbial Fuel Cells’ Application

Retracted: Effect of Geobacter metallireducens nanowire on electron transfer efficiency in microbial fuel cell

Sulfate-reducing bacteria-based bioelectrochemical system for heavy metal wastewater treatment: Mechanisms, operating factors, and future challenges