[图书][B] Mathematical modeling of extracellular electron transfer in biofilms
Earlier chapters in this book describe electrochemically active biofilms (EABs) and provide
tools and techniques to study them. Although there are differences in proposed mechanisms …
tools and techniques to study them. Although there are differences in proposed mechanisms …
Electrokinetic analyses in biofilm anodes: Ohmic conduction of extracellular electron transfer
HS Lee - Bioresource technology, 2018 - Elsevier
This review explores electron transfer kinetics from an electron donor to the anode in
electrically conductive biofilm anodes. Intracellular electron transfer (IET) from the donor to …
electrically conductive biofilm anodes. Intracellular electron transfer (IET) from the donor to …
Electrical spiking in bacterial biofilms
In nature, biofilms are the most common form of bacterial growth. In biofilms, bacteria display
coordinated behaviour to perform specific functions. Here, we investigated electrical …
coordinated behaviour to perform specific functions. Here, we investigated electrical …
A chip-based 128-channel potentiostat for high-throughput studies of bioelectrochemical systems: Optimal electrode potentials for anodic biofilms
The presence of microorganisms performing extracellular electron transfer has been
established in many environments. Research to determine their role is moving slowly due to …
established in many environments. Research to determine their role is moving slowly due to …
Engineered living conductive biofilms as functional materials
Natural living conductive biofilms transport electrons between electrodes and cells, as well
as among cells fixed within the film, catalyzing an array of reactions from acetate oxidation to …
as among cells fixed within the film, catalyzing an array of reactions from acetate oxidation to …
Theory of ion and electron transport coupled with biochemical conversions in an electroactive biofilm
An electroactive biofilm is a porous layer of bacteria covering an electrode, which plays an
important role in bioelectrochemical systems, such as in the microbial fuel cell. We derive a …
important role in bioelectrochemical systems, such as in the microbial fuel cell. We derive a …
Does bioelectrochemical cell configuration and anode potential affect biofilm response?
Electrochemical gradients are the backbone of basic cellular functions, including chemo-
osmotic transport and ATP synthesis. Microbial growth, terminal respiratory proteins and …
osmotic transport and ATP synthesis. Microbial growth, terminal respiratory proteins and …
Delving through electrogenic biofilms: from anodes to cathodes to microbes
The study of electromicrobiology has grown into its own field over the last decades and
involves microbially driven redox reactions at electrodes as part of a microbial …
involves microbially driven redox reactions at electrodes as part of a microbial …
Theory of redox conduction and the measurement of electron transport rates through electrochemically active biofilms
178 THEORY OF REDOX CONDUCTION from intracellular metabolism of acetate are
transported to the underlying anode surface that acts a metabolic electron acceptor [1]. Just …
transported to the underlying anode surface that acts a metabolic electron acceptor [1]. Just …
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 …