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Improved cathode materials for microbial electrosynthesis

电合成 阴极 化学 电化学 聚苯胺 材料科学 化学工程 无机化学 电极 有机化学 聚合物 聚合 工程类 物理化学
作者
Tian Zhang,Huarong Nie,Timothy S. Bain,H. Y. Lu,Mengmeng Cui,Oona Snoeyenbos-West,Ashley E. Franks,Kelly P. Nevin,Thomas P. Russell,Derek R. Lovley
出处
期刊:Energy and Environmental Science [Royal Society of Chemistry]
卷期号:6 (1): 217-224 被引量:383
标识
DOI:10.1039/c2ee23350a
摘要

Microbial electrosynthesis is a promising strategy for the microbial conversion of carbon dioxide to transportation fuels and other organic commodities, but optimization of this process is required for commercialization. Cathodes which enhance electrode–microbe electron transfer might improve rates of product formation. To evaluate this possibility, biofilms of Sporomusa ovata, which are effective in acetate electrosynthesis, were grown on a range of cathode materials and acetate production was monitored over time. Modifications of carbon cloth that resulted in a positive-charge enhanced microbial electrosynthesis. Functionalization with chitosan or cyanuric chloride increased acetate production rates 6–7 fold and modification with 3-aminopropyltriethoxysilane gave rates 3-fold higher than untreated controls. A 3-fold increase in electrosynthesis over untreated carbon cloth cathodes was also achieved with polyaniline cathodes. However, not all strategies to provide positively charged surfaces were successful, as treatment of carbon cloth with melamine or ammonia gas did not stimulate acetate electrosynthesis. Treating carbon cloth with metal, in particular gold, palladium, or nickel nanoparticles, also promoted electrosynthesis, yielding electrosynthesis rates that were 6-, 4.7- or 4.5-fold faster than the untreated control, respectively. Cathodes comprised of cotton or polyester fabric treated with carbon nanotubes yielded cathodes that supported acetate electrosynthesis rates that were ∼3-fold higher than carbon cloth controls. Recovery of electrons consumed in acetate was ∼80% for all materials. The results demonstrate that one approach to increase rates of carbon dioxide reduction in microbial electrosynthesis is to modify cathode surfaces to improve microbe-electrode interactions.
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