Contribution of configurations, electrode and membrane materials, electron transfer mechanisms, and cost of components on the current and future development of …
F Borja-Maldonado, MÁL Zavala - Heliyon, 2022 - cell.com
Microbial fuel cells (MFCs) are a technology that can be applied to both the wastewater
treatment and bioenergy generation. This work discusses the contribution of improvements …
treatment and bioenergy generation. This work discusses the contribution of improvements …
Stay connected: Electrical conductivity of microbial aggregates
The discovery of direct extracellular electron transfer offers an alternative to the traditional
understanding of diffusional electron exchange via small molecules. The establishment of …
understanding of diffusional electron exchange via small molecules. The establishment of …
Hydrogen production from lignocellulosic hydrolysate in an up-scaled microbial electrolysis cell with stacked bio-electrodes
Hydrogen production from renewable resources via microbial electrolysis cells (MECs) is a
promising approach for sustainable energy production. Yet high hydrogen yield from real …
promising approach for sustainable energy production. Yet high hydrogen yield from real …
The identification of cable bacteria attached to the anode of a benthic microbial fuel cell: evidence of long distance extracellular electron transport to electrodes
Multicellular, filamentous, sulfur-oxidizing bacteria, known as cable bacteria, were
discovered attached to fibers of a carbon brush electrode serving as an anode of a benthic …
discovered attached to fibers of a carbon brush electrode serving as an anode of a benthic …
Is biofilm formation intrinsic to the origin of life?
U Römling - Environmental Microbiology, 2023 - Wiley Online Library
Biofilms are multicellular, often surface‐associated, communities of autonomous cells. Their
formation is the natural mode of growth of up to 80% of microorganisms living on this planet …
formation is the natural mode of growth of up to 80% of microorganisms living on this planet …
[图书][B] Microbial electrochemical technologies
SM Tiquia-Arashiro, D Pant - 2020 - api.taylorfrancis.com
Microbial electrochemical technology (MET) is a rapidly growing environmental technology,
bringing together the disciplines of microbiology, electrochemistry, materials science and …
bringing together the disciplines of microbiology, electrochemistry, materials science and …
Nitrite and nitrate as electron acceptors for bioelectrochemical ammonium oxidation under electrostatic field
Bioelectrochemical ammonium oxidation with nitrite and nitrate as electron acceptors was
investigated in bulk solution exposed to electrostatic field. In a bioelectrochemical reactor …
investigated in bulk solution exposed to electrostatic field. In a bioelectrochemical reactor …
Effect of electrode spacing on electron transfer and conductivity of Geobacter sulfurreducens biofilms
To understand electron transport in electrochemically active biofilms, it is necessary to
elucidate the heterogeneous electron transport across the biofilm/electrode interface and in …
elucidate the heterogeneous electron transport across the biofilm/electrode interface and in …
Enhanced redox conductivity and enriched Geobacteraceae of exoelectrogenic biofilms in response to static magnetic field
A possible approach to enhance the performance of microbial electrochemical system such
as microbial fuel cells is to increase the conductivity of catalytic biofilms and thereby the …
as microbial fuel cells is to increase the conductivity of catalytic biofilms and thereby the …
A novel fragmented anode biofilm microbial fuel cell (FAB–MFC) integrated system for domestic wastewater treatment and bioelectricity generation
Background The critical MFC design challenge is to increase anode surface area. A novel
FAB–MFC integrated system was developed and evaluated for domestic wastewater …
FAB–MFC integrated system was developed and evaluated for domestic wastewater …