▎ 摘　　要

A novel cathode of macroporous graphene aerogel (GA) with high specific surface area was proposed for the electro-Fenton (E-Fenton) system. The GA was prepared by reduction self-assembly method. The physicochemical properties were characterized in details. The GA displayed a low electrochemical resistance and exhibited an excellent electrocatalytic activity. Comparing with the traditional carbon fiber and graphite felt cathodes, the GA cathode showed more positive oxygen reduction potential of 0.07 V (versus saturated calomel electrode). In E-Fenton system, H2O2 could be in situ electro-generated efficiently and continuously via a twoelectron oxygen reduction reaction on the GA cathode. The electron transfer number n was calculated to be 1.0-2.0 for GA. The production of H2O2 of 107.6 mg L-1 was obtained for GA in 90 min. Good performance was exhibited to degrade antibiotic ciprofloxacin. Results showed that nearly 100% ciprofloxacin degradation ratio and 91% TOC removal were achieved in 90 min and 120 min, respectively, which were much higher than control groups. The mineralization current efficiency was 12.75% in 30 min. It was attributed to the plenty of macropores of GA acted as reaction trap to accelerate electro-generated H2O2 decomposing by Fe2+ to form OH efficiently, which was verified by probe molecule trapping experiments and electron paramagnetic resonance analysis. Simultaneously, the strong charge transfer ability of GA was beneficial to the conversion of Fe3+/Fe2+. The GA also presented distinguished reusability and stability. Therefore, GA is a promising candidate material for E-Fenton cathode due to low cost, high efficient and corrosion resistance.