Abstract

Graphene oxide (GO) has recently been shown to be an excellent anode substrate for exoelectrogens. This study demonstrates the applicability of GO in recovering electricity from sewage wastewater. Anaerobic incubation of sludge with GO formed a hydrogel complex that embeds microbial cells via π-π stacking of microbially reduced GO. The rGO complex was electrically conductive (23 mS·cm^-1) and immediately produced electricity in sewage wastewater under polarization at +200 mV vs. Ag/AgCl. Higher and more stable production of electricity was observed with rGO complexes (179-310 μA·cm^-3) than with graphite felt (GF; 79-95 μA·cm^-3). Electrochemical analyses revealed that this finding was attributable to the greater capacitance and smaller internal resistance of the rGO complex. Microbial community analysis showed abundances of <i>Geobacter</i> species in both rGO and GF complexes, whereas more diverse candidate exoelectrogens in the Desulfarculaceae family and <i>Geothrix</i> genus were particularly prominent in the rGO complex.