Alum and anaerobic sludge-derived high-performance electrocatalyst for enhanced oxygen reduction reaction in microbial fuel cell

The present investigation demonstrates the facile synthesis of an inexpensive sludge-derived cathode electrocatalyst for application in microbial fuel cell (MFC). The electrocatalyst is prepared via hydrothermal treatment of a mixture of alum (AL) sludge and anaerobic (AN) sludge, derived from water and wastewater treatment plants, respectively. The as-synthesized catalyst (AL:AN = 2:1) possesses excellent physicochemical properties, along with the presence of pyridinic N and graphitic N moieties in its carbonaceous structure, leading to a superior electrochemical activity. The composite also presents a lower reduction in the relative current response (18.53 %) when subjected to an accelerated sulphide poisoning test compared to Pt/C (44.33 % reduction). Moreover, application of the synthesized catalyst (AL:AN = 2:1) in MFC results in a power density of 11.63 f 1.61 W m-3, organic matter removal of 75.11 f 3.57 %, and coulombic efficiency of 32.23 f 0.83 %, which is comparable to the conventional MFC-platinum/carbon system (12.46 f 0.86 W m-3). The results of this investigation endorse the utilization of the as-developed sludge composite as a cathode catalyst for field-scale applications of MFC. It also provides a cost-effective approach for sludge valorization and enhancing the performance of MFC, which is critical from the viewpoint of sustainable development.