Microbial fuel cells (MFCs) have emerged as a promising technology for bioremediation of complex organic pollutants and degradation of complex molecules. MFCs utilize the metabolic activities of microorganisms to generate electricity, and this process can also be used to enhance the degradation of complex molecules. The integration of bioremediation and MFC technology has several advantages over traditional bioremediation methods. For one, the generation of electricity in MFCs can provide a source of energy for the microorganisms involved in the bioremediation process, thus increasing the efficiency and effectiveness of the degradation process. Additionally, the use of MFCs can help to reduce the reliance on chemical or physical treatments, which can be expensive and often generate secondary pollutants. Another advantage of the MFC-based bioremediation is its potential to be a sustainable solution, as it can harness renewable energy sources and reduce greenhouse gas emissions. Furthermore, MFCs can help to maintain the redox balance of the degradation process, which can improve the overall quality of the products generated and reduce the risk of byproduct formation. Overall, the use of MFCs in bioremediation has the potential to provide a cost-effective and sustainable solution for the degradation of complex organic pollutants and molecules.​