Kinetic assessment of the potassium ferrate(VI) oxidation of antibacterial drug sulfamethoxazole

Sulfamethoxazole (SMX), a worldwide-applied antibacterial drug, was recently found in surface waters and in secondary wastewater effluents, which may result in ecotoxical effects in the environment. Herein, removal of SMX by environmentally-friendly oxidant, potassium ferrate(VI) (K2FeO4), is sought by studying the kinetics of the reaction between Fe(VI) and SMX as a function of pH (6.93–9.50) and temperature (15–45 °C). The rate law for the oxidation of SMX by Fe(VI) is first-order with respect to each reactant. The observed second-order rate constant decreased non-linearly from 1.33 ± 0.08 × 103 M−1 s−1 to 1.33 ± 0.10 × 100 M−1 s−1 with an increase of pH from 7.00 to 9.50. This is related to protonation of Fe(VI) (image; pKa,HFeO4 = 7.23) and sulfamethoxazole (SHleft right double arrowH+ + S−; pKa,SH = 5.7). The estimated rate constants were k11 image M−1 s−1, k12 image M−1 s−1, and k13 image M−1 s−1. The energy of activation at pH 7.0 was found to be 1.86 ± 0.04 kJ mol−1. If excess potassium ferrate(VI) concentration (10 μM) is used than the SMX in water, the half-life of the reaction using a rate constant obtained in our study would be approximately 2 min at pH 7. The reaction rates are pH dependent; thus, so are the half-lives of the reactions. The results suggest that K2FeO4 has the potential to serve as an oxidative treatment chemical for removing SMX in water.