Dual‐function electrocatalytic and macroporous hollow‐fiber cathode for converting waste streams to valuable resources using microbial electrochemical systems
Dual‐function electrocatalytic and macroporous hollow‐fiber cathodes are recently
proposed as promising advanced material for maximizing the conversion of waste streams …
proposed as promising advanced material for maximizing the conversion of waste streams …
The bioelectrosynthesis of acetate
HD May, PJ Evans, EV LaBelle - Current opinion in biotechnology, 2016 - Elsevier
Highlights•Bioelectrosynthesis of acetate from CO 2 is the key to microbial electrosynthesis.•
Fuels and chemicals may then be bio-produced with this acetate or acetyl coA.•Microbes …
Fuels and chemicals may then be bio-produced with this acetate or acetyl coA.•Microbes …
Enhanced microbial electrosynthesis with three-dimensional graphene functionalized cathodes fabricated via solvothermal synthesis
The biological reduction of CO 2 into multicarbon chemicals can be driven by electrons
derived from the cathode of a bioelectrochemical reactor via microbial electrosynthesis …
derived from the cathode of a bioelectrochemical reactor via microbial electrosynthesis …
Purposely designed hierarchical porous electrodes for high rate microbial electrosynthesis of acetate from carbon dioxide
Conspectus Carbon-based products are crucial to our society, but their production from
fossil-based carbon is unsustainable. Production pathways based on the reuse of CO2 will …
fossil-based carbon is unsustainable. Production pathways based on the reuse of CO2 will …
Optimizing electrochemically active microorganisms as a key player in the bioelectrochemical system: Identification methods and pathways to large-scale …
The rapid global economic growth driven by industrialization and population expansion has
resulted in significant issues, including reliance on fossil fuels, energy scarcity, water crises …
resulted in significant issues, including reliance on fossil fuels, energy scarcity, water crises …
Electrosynthesis of acetate from CO 2 by a highly structured biofilm assembled with reduced graphene oxide–tetraethylene pentamine
L Chen, PL Tremblay, S Mohanty, K Xu… - Journal of Materials …, 2016 - pubs.rsc.org
Microbes can reduce CO2 into multicarbon chemicals with electrons acquired from the
cathode of a bioelectrochemical reactor. This bioprocess is termed microbial …
cathode of a bioelectrochemical reactor. This bioprocess is termed microbial …
Carbon dioxide reduction to high–value chemicals in microbial electrosynthesis system: Biological conversion and regulation strategies
Large emissions of atmospheric carbon dioxide (CO 2) are causing climatic and
environmental problems. It is crucial to capture and utilize the excess CO 2 through diverse …
environmental problems. It is crucial to capture and utilize the excess CO 2 through diverse …
A novel MXene-coated biocathode for enhanced microbial electrosynthesis performance
Microbial electrosynthesis (MES) is a promising bioelectrochemical technology for the
simultaneous consumption of carbon dioxide/bicarbonate and generation of useful chemical …
simultaneous consumption of carbon dioxide/bicarbonate and generation of useful chemical …
The oxygen dilemma: The challenge of the anode reaction for microbial electrosynthesis from CO2
M Abdollahi, S Al Sbei, MA Rosenbaum… - Frontiers in …, 2022 - frontiersin.org
Microbial electrosynthesis (MES) from CO2 provides chemicals and fuels by driving the
metabolism of microorganisms with electrons from cathodes in bioelectrochemical systems …
metabolism of microorganisms with electrons from cathodes in bioelectrochemical systems …
Influence of acidic pH on hydrogen and acetate production by an electrosynthetic microbiome
Production of hydrogen and organic compounds by an electrosynthetic microbiome using
electrodes and carbon dioxide as sole electron donor and carbon source, respectively, was …
electrodes and carbon dioxide as sole electron donor and carbon source, respectively, was …