Microbial electrochemical technologies information
Microbial electrochemical technologies (METs) use microorganisms as electrochemical catalyst, merging the microbial metabolism with electrochemical processes for the production of bioelectricity, biofuels, H2 and other valuable chemicals.[1] Microbial fuel cells (MFC) and microbial electrolysis cells (MEC) are prominent examples of METs. While MFC is used to generate electricity from organic matter typically associated with wastewater treatment, MEC use electricity to drive chemical reactions such as the production of H2 or methane. Recently, microbial electrosynthesis cells (MES) have also emerged as a promising MET, where valuable chemicals can be produced in the cathode compartment.[2][3][4] Other MET applications include microbial remediation cell, microbial desalination cell, microbial solar cell, microbial chemical cell, etc.,.[5][6][7]
^Logan, B.E., et al., Electroactive microorganisms in bioelectrochemical systems. Nature Reviews Microbiology, 2019. 17(5): p. 307-319.
^Nevin, K.P., et al., Microbial Electrosynthesis: Feeding Microbes Electricity To Convert Carbon Dioxide and Water to Multicarbon Extracellular Organic Compounds. mBio, 2010. 1(2): p. e00103-10.
^Logan, B.E., Exoelectrogenic bacteria that power microbial fuel cells. Nature Reviews Microbiology, 2009. 7(5): p. 375-381.
^Rozendal, R.A., et al., Efficient hydrogen peroxide generation from organic matter in a bioelectrochemical system. Electrochemistry Communications, 2009.11(9): p. 1752-175
^Harnisch, F. and U. Schroder, From MFC to MXC: chemical and biological cathodes and their potential for microbial bioelectrochemical systems. Chem Soc Rev, 2010. 39(11): p. 4433-48.
^Kumar, P., et al., Electro-Fermentation in Aid of Bioenergy and Biopolymers. Energies, 2018. 11(2): p. 343-343.
^Bajracharya, S., et al., An overview on emerging bioelectrochemical systems (BESs): Technology for sustainable electricity, waste remediation, resource recovery, chemical production and beyond. Renewable Energy, 2016. 98: p. 153-170.
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Microbialelectrochemicaltechnologies (METs) use microorganisms as electrochemical catalyst, merging the microbial metabolism with electrochemical processes...
A microbial fuel cell (MFC) is a device that converts chemical energy to electrical energy by the action of microorganisms. These electrochemical cells...
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energy than the minimum. Electrocatalyst Electrochemistry Electrochemical cell Electrochemical engineering Electrolysis Gas cracker Hydrogen production...
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term risk of any adverse health effect. In general terms, the greatest microbial risks are associated with ingestion of water that is contaminated with...
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another one, works in a physicochemical way: optical, piezoelectric, electrochemical, electrochemiluminescence etc., resulting from the interaction of the...
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occurs as a result. Electrochemical reduction can be performed at ambient pressure and temperature. This will not disrupt microbial environments or raise...
fuels and chemicals. Microbial electrochemistry utilizes bacteria that are able to transfer electrons to the anode of an electrochemical cell. Called “anode-respiring...
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Biochemistry, Genetic Engineering, Plant Biotechnology, Bio-electrochemical systems and Microbial Genetics.[citation needed] The department offers post-graduate...
other desired processes. They are used in microbial electrosynthesis, environmental remediation, and electrochemical energy conversion. Examples of bioelectrochemical...
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An electrocatalyst is a catalyst that participates in electrochemical reactions. Electrocatalysts are a specific form of catalysts that function at electrode...
sulfide inclusions in stainless steel. I. Electrochemical microcell measurements". Journal of the Electrochemical Society. 149 (6): –272–B279. Bibcode:2002JElS...
the desalinated water produced as a byproduct. Microbial desalination cells are biological electrochemical systems that implements the use of electro-active...
ability to remove microbial pathogens if properly applied and such social factors as ease of use and cultural appropriateness. Technologies may generate more...
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