EcoMat (Jan 2023)
3D hierarchical porous carbon foams as high‐performance free‐standing anodes for microbial fuel cells
Abstract
Abstract Microbial fuel cells (MFCs) that can directly convert chemical energy of organic matter into electrical energy are expected to continuously obtain energy from wastewater. However, the practical application of MFCs is still limited by unsatisfactorily low power output due to low bacterial loading capacity and relatively poor extracellular electron transport (EET) efficiency between anode and electrochemically active biofilm. Herein, hierarchical porous carbon foams (HPCFs) prepared by pyrolyzing nanoscale Fe‐MIL‐88B‐NH2 modified seitan composite were developed as 3D free‐standing MFC anodes. Its marcoporous structure and good biocompatibility favor the bacterial adhesion, while the N‐doped carbon skeleton, abundant mesopores and iron ions boost the bacteria‐electrode charge transfer efficiency. As a result, the HPCF anodes equipped MFCs deliver a maximum power density of 11.21 W m−3 and a current density of 23.11 A m−3, outperforming the most previously reported 3D porous anodes. This study provides a new idea for the design of anodes for high‐performance MFCs.
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