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Interfacing anaerobic digestion with (bio)electrochemical systems : potentials and challenges
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- Journal Article
- A1
- open access
Membrane electrolysis assisted gas fermentation for enhanced acetic acid production
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A Gibbs free energy-based assessment of microbial electrocatalysis
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Microbial protein production on electrochemically recovered NH3 and H2 from source-separated urine
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Electrochemical ammonia recovery from source-separated urine allows microbial protein production
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- Journal Article
- A1
- open access
Upgrading syngas fermentation effluent using Clostridium kluyveri in a continuous fermentation
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The type of ion selective membrane determines stability and production levels of microbial electrosynthesis
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Increased concentration and current efficiency for in situ extraction of acetic acid in microbial electrosynthesis from CO2
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Electrochemical ammonia recovery from source-separated urine for microbial protein production
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Ammonification of urine allows electrochemical resource recovery
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Ammonification of urine results in electrochemical production of industrial resources
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Extraction and esterification of low-titer short-chain volatile fatty acids from anaerobic fermentation with ionic liquids
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In-situ membrane electrolysis enables high-rate production and electrochemical pH control in microbial electrosynthesis of acetic acid from carbon dioxide
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- PhD Thesis
- open access
Technology and tools for bioelectrochemical production of short- and medium-chain carboxylic acids from CO2
(2016) -
- Conference Paper
- C3
- open access
Fermentation of urine results in electrochemical production of industrial resources
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Inoculum selection is crucial to ensure operational stability in anaerobic digestion
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Integrated production, extraction and concentration of acetic acid from CO2 through microbial electrosynthesis
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Electrical current as a driver for microbial production processes
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Integrated production, extraction, and concentration of acetic acid from CO2 through microbial electrosynthesis
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A logical data representation framework for electricity-driven bioproduction processes
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Electrochemically and bioelectrochemically induced ammonium recovery
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Integrated production, extraction and concentration of acetic acid from CO2 through microbial electrosynthesis
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Cathodic polarization in a BES allows efficient conversion of glycerol into 1.3 propanediol and VFAs compared to addition of other electron donors
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- Conference Paper
- C3
- open access
Electrical current is more than hydrogen during microbial electrosynthesis and electrofermentation
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Electrolytic membrane extraction enables production of fine chemicals from biorefinery sidestreams
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Electrolytic membrane extraction enables production of fine chemicals from biorefinery sidestreams
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- Journal Article
- A1
- open access
Biomass retention on electrodes rather than electrical current enhances stability in anaerobic digestion
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A critical revisit of the key parameters used to describe microbial electrochemical systems
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Biomass retention on electrodes rather than electrical current enhances stability in anaerobic digestion
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Simultaneous production and extraction of acetate from CO2 during microbial electrosynthesis
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- Conference Paper
- C1
- open access
In-situ extraction of microbial electrosynthesis products
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Electrolytic membrane extraction enables fine chemical production from biorefinery side streams
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Operational and technical aspects for microbial electrosynthesis
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A bioelectrochemical system in anaerobic digestion: stabilization and remediation
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A bioelectrochemical system as stabilizing and remediating agent in anaerobic digestion
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A bioelectrochemical system as stabilizing and remediating agent in anaerobic digestion