Microbial electrosynthesis (MES) is an emerging technology which exploits microbial cells to convert CO₂ into fuels, and value‐added chemicals using electrons supplied by a solid‐state cathode. Methane and acetic acid are typically the main CO₂‐reduction products attained in microbial electrosynthesis studies, although the production of other more valuable products has also been reported. So far, however, practical strategies to manipulate and steer the distribution of CO₂ reduction products during microbial electrosynthesis, particularly when mixed microbial cultures are employed as catalysts, are lacking.

中文翻译：

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导电磁铁矿纳米颗粒增强了二氧化碳中乙酸的微生物电合成，同时将电子从甲烷生成中转移出

微生物电合成（MES）是一项新兴技术，它利用微生物细胞将CO ₂转化为燃料，并利用固态阴极提供的电子来增值化学品。甲烷和乙酸通常是微生物电合成研究中获得的主要的CO ₂还原产物，尽管也有其他有价值产品的生产报道。然而，到目前为止，缺乏在微生物电合成期间操纵和操纵CO ₂还原产物的分布的实用策略，特别是当使用混合微生物培养物作为催化剂时。