Role of the cathode chamber in microbial electrosynthesis: A comprehensive review of key factors

• Published in: Engineering Microbiology Vol. 4; no. 3; p. 100141
• Main Authors: Cai, Ting, Gao, Xinyu, Qi, Xiaoyan, Wang, Xiaolei, Liu, Ruijun, Zhang, Lei, Wang, Xia
• Format: Journal Article
• Language: English
• Published: Netherlands Elsevier B.V 01.09.2024; Elsevier
• Subjects: Cathode chamber; CO2 reduction; Electroactive bacteria; Energy regeneration; Microbial electrosynthesis; Review; Energy regeneration; CO2; EAB; Rubisco; H2; FDH; PFC; SHE; 3D; DET; MBH; 2D; Electroactive bacteria; EET; SH; Cathode chamber; Microbial electrosynthesis; IET; MES; RM; CO2 reduction
• ISSN: 2667-3703; 2097-4280; 2667-3703
• DOI: 10.1016/j.engmic.2024.100141

The consumption of non-renewable fossil fuels has directly contributed to a dramatic rise in global carbon dioxide (CO2) emissions, posing an ongoing threat to the ecological security of the Earth. Microbial electrosynthesis (MES) is an innovative energy regeneration strategy that offers a gentle and efficient approach to converting CO2 into high-value products. The cathode chamber is a vital component of an MES system and its internal factors play crucial roles in improving the performance of the MES system. Therefore, this review aimed to provide a detailed analysis of the key factors related to the cathode chamber in the MES system. The topics covered include inward extracellular electron transfer pathways, cathode materials, applied cathode potentials, catholyte pH, and reactor configuration. In addition, this review analyzes and discusses the challenges and promising avenues for improving the conversion of CO2 into high-value products via MES. [Display omitted]