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2021
Microbial CO2 upgrading featured with mild operating condition and low energy consumption is one of the preferred choices with the goal of carbon-neutral economy. Some innovative biotechnology platforms based on those microorganisms having characteristic of taking up extracellular electrons are being developed to accomplish the CO2-to-chemical/fuel ...
Long, Zou +3 more
openaire +2 more sources
Microbial CO2 upgrading featured with mild operating condition and low energy consumption is one of the preferred choices with the goal of carbon-neutral economy. Some innovative biotechnology platforms based on those microorganisms having characteristic of taking up extracellular electrons are being developed to accomplish the CO2-to-chemical/fuel ...
Long, Zou +3 more
openaire +2 more sources
Electrochemical Bioreactor Technology for Biocatalysis and Microbial Electrosynthesis
2018Two seemingly distinct fields, industrial biocatalysis and microbial electrosynthesis, can be viewed together through the lens of electrochemical bioreactor technology in order to highlight the challenges that exist in creating a versatile platform technology for use in chemical and biological applications.
Clifford, Morrison +4 more
openaire +2 more sources
Physical Chemistry Chemical Physics, 2013
Microbial electrosynthesis cells (MECs) are devices wherein microorganisms can electrochemically interact with electrodes, directly donating or accepting electrons from electrode surfaces. Here, we developed a novel cathode by using nickel nanowires anchored to graphite for the improvement of microbial-catalyzed reduction in MEC cathode chamber.
Huarong, Nie +5 more
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Microbial electrosynthesis cells (MECs) are devices wherein microorganisms can electrochemically interact with electrodes, directly donating or accepting electrons from electrode surfaces. Here, we developed a novel cathode by using nickel nanowires anchored to graphite for the improvement of microbial-catalyzed reduction in MEC cathode chamber.
Huarong, Nie +5 more
openaire +2 more sources
Harnessing microbial electrosynthesis for a sustainable future
The Innovation Materials, 2023Yujing Jiang +5 more
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Microbial Bioelectricity Generation and Product Electrosynthesis
2022John M. Pisciotta, Samantha Blessing
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