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Salinity-Gradient Energy Driven Microbial Electrosynthesis of Hydrogen Peroxide from Oxygen Reduction [PDF]
, 2015 Angelidaki, Irini +2 more
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A Review of Bioelectrochemical Strategies for Enhanced Polyhydroxyalkanoate Production. [PDF]
Bioengineering (Basel)Chamizo-Ampudia A +4 more
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The role of microbial diversity in microbial electrosynthesis
Open Access Government, 2023The role of microbial diversity in microbial electrosynthesis Bacteria are often painted as the enemy of humanity. Before the discovery of antibiotics, a wound getting infected was frequently a death sentence. Even with modern medicine, infections such as C.
Arpita Bose, Brian Gallagher
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Sulfide-Driven Microbial Electrosynthesis
Environmental Science & Technology, 2012Microbial electrosynthesis, the conversion of carbon dioxide to organic molecules using electricity, has recently been demonstrated for acetogenic microorganisms, such as Sporomusa ovata. The energy for reduction of carbon dioxide originates from the hydrolysis of water on the anode, requiring a sufficiently low potential.
Yanming, Gong +6 more
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Microbial Electrosynthesis of Acetate Powered by Intermittent Electricity
Environmental Science & Technology, 2022Microbial electrosynthesis (MES) of acetate is a process using electrical energy to reduce CO2 to acetic acid in an integrated bioelectrochemical system. MES powered by excess renewable electricity produces carbon-neutral acetate while benefitting from inexpensive but intermittent energy sources.
Jörg S. Deutzmann +3 more
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Modeling Microbial Electrosynthesis
2017Mathematical modeling is an overarching approach for assessing the complexity of microbial electrosynthesis (MES) and for complementing the relevant experimental research. By describing and linking compartments, components, and processes with appropriate mathematical equations, MES and the corresponding bioelectrodes and complete bioelectrochemical ...
Benjamin, Korth, Falk, Harnisch
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Microbial electrosynthesis — revisiting the electrical route for microbial production
Nature Reviews Microbiology, 2010Microbial electrocatalysis relies on microorganisms as catalysts for reactions occurring at electrodes. Microbial fuel cells and microbial electrolysis cells are well known in this context; both use microorganisms to oxidize organic or inorganic matter at an anode to generate electrical power or H(2), respectively. The discovery that electrical current
Rabaey, Korneel, Rozendal, Rene A.
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Metabolic and practical considerations on microbial electrosynthesis
Current Opinion in Biotechnology, 2011The production of biofuels and biochemicals is highly electron intensive. To divert fermentative and respiratory pathways to the product of interest, additional electrons (i.e. reducing power) are often needed. Meanwhile, the past decade has seen the breakthrough of sustainable electricity sources such as solar and wind. Microbial electrosynthesis (MES)
Rabae, Korneel +2 more
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Microbially Mediated Electrosynthesis Processes
2017As stated by Lovley (2008), an environmental niche of any given microorganism can make it function as electrode reducer or an electrode oxidizer, just as microorganisms can function either as iron reducer or iron acceptor depending on environmental conditions.
Mohita Sharma, Priyangshu M. Sarma
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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
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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