Isolation and Electrochemical Analysis of a Facultative Anaerobic Electrogenic Strain Klebsiella sp. SQ-1.

Polish journal of microbiology Pub Date : 2024-04-27 eCollection Date: 2024-06-01 DOI:10.33073/pjm-2024-013
Lei Zhou, Tuoxian Tang, Dandan Deng, Yayue Wang, Dongli Pei
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Abstract

Electricigens decompose organic matter and convert stored chemical energy into electrical energy through extracellular electron transfer. They are significant biocatalysts for microbial fuel cells with practical applications in green energy generation, effluent treatment, and bioremediation. A facultative anaerobic electrogenic strain SQ-1 is isolated from sludge in a biotechnology factory. The strain SQ-1 is a close relative of Klebsiella variicola. Multilayered biofilms form on the surface of a carbon electrode after the isolated bacteria are inoculated into a microbial fuel cell device. This strain produces high current densities of 625 μA cm-2 by using acetate as the carbon source in a three-electrode configuration. The electricity generation performance is also analyzed in a dual-chamber microbial fuel cell. It reaches a maximum power density of 560 mW m-2 when the corresponding output voltage is 0.59 V. The facultative strain SQ-1 utilizes hydrous ferric oxide as an electron acceptor to perform extracellular electricigenic respiration in anaerobic conditions. Since facultative strains possess better properties than anaerobic strains, Klebsiella sp. SQ-1 may be a promising exoelectrogenic strain for applications in microbial electrochemistry.

兼性厌氧电生菌株克雷伯氏菌 SQ-1 的分离与电化学分析
电原能分解有机物,并通过细胞外电子传递将储存的化学能转化为电能。它们是微生物燃料电池的重要生物催化剂,可实际应用于绿色能源生产、污水处理和生物修复。从一家生物技术工厂的污泥中分离出了一株兼性厌氧电源菌株 SQ-1。菌株 SQ-1 是变异克雷伯氏菌的近亲。将分离出的细菌接种到微生物燃料电池装置后,碳电极表面形成了多层生物膜。该菌株在三电极配置中使用醋酸盐作为碳源,可产生 625 μA cm-2 的高电流密度。此外,还分析了双室微生物燃料电池的发电性能。兼性菌株 SQ-1 利用含水氧化铁作为电子受体,在厌氧条件下进行胞外电呼吸。由于兼性菌株比厌氧菌株具有更好的特性,因此克雷伯氏菌 SQ-1 可能是微生物电化学应用中一种很有前途的外电源菌株。
本文章由计算机程序翻译,如有差异,请以英文原文为准。
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