1. Microbial electrosynthesis from CO2: forever a promise?
- Author
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Prévoteau, Antonin, Carvajal-Arroyo, Jose M, Ganigué, Ramon, and Rabaey, Korneel
- Subjects
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ELECTROSYNTHESIS , *BIOELECTROCHEMISTRY , *ENERGY conversion , *ORGANIC products , *PAY for performance , *WATER electrolysis , *MICROBIAL metabolism - Abstract
• MES was proposed as a route to convert CO 2 to commodities. • Performance indicators of MES are plateauing and far from economic competitiveness. • Effective water electrolysis in microbial-compatible electrolytes is challenging. • Severe trade-off between production rate and energy conversion efficiency. • Improvement of MES, applicability and possible directions are discussed. Microbial electrosynthesis (MES) is an electrochemical process used to drive microbial metabolism for bio-production, such as the reduction of CO 2 into industrially relevant organic products as an alternative to current fossil-fuel-derived commodities. After a decade of research on MES from CO 2 , figures of merit have increased significantly but are plateauing yet far from those expected to allow competitiveness for synthesis of commodity chemicals. Here we discuss the substantial technological shortcomings still associated with MES and evoke possible ways to mitigate them. It appears particularly challenging to obtain both relevant production rates (driven by high current densities) and energy conversion efficiency (i.e. low cell voltage) in microbial-compatible electrolytes. More competitive processes could arise by decoupling effective abiotic electroreductions (e.g. CO 2 to CO or ethanol; H 2 evolution) with subsequent fermentation processes. [ABSTRACT FROM AUTHOR]
- Published
- 2020
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