Electrocatalytic oxidation (EO) of carcinogenic 4-aminobiphenyl (4-ABP) aromatic amine was performed using Ti-RuO 2 anodes. Current (I), pH, electrolysis time (t), and 4-ABP initial concentration (C o ) were selected as EO parameters, and their effects on %4-ABP removal (R 1 ) and energy consumed (R 2 ) were studied. Experimental design, parameters optimization, and their interaction with responses R 1 and R 2 were performed using response surface methodology. At optimized parameters, %TOC removal and 4-BP mineralization current efficiency (%MCE) were assessed to evaluate the potential of Ti/RuO 2 anodes towards 4-ABP mineralization. Simultaneous TOC and 4-ABP degradation kinetics were also studied to evaluate the competition in 4-ABP mineralization and degradation. Further, UPLC-Q-TOF-MS analysis was performed to identify the 4-ABP transformation products during the EO, and a mechanism describing the EO transformation was proposed. At optimum parameters (I = 1.2 A; pH = 4.0; t = 30 min; C o = 30 ppm), responses were found to be R 1 = 60.25%; R 2 = 2.49 kWh/g of 4-ABP removed. %TOC removal and %MCE were 52.4% and 34.2%, respectively.