The oxidative transformation of sodium arsenite at the interface of α-MnO2 and water

Arsenite is acute contaminant to human health in soil and water environment. In this study, Pyrolusite (α-MnO2) was used to investigate the oxidative transformation of arsenite into arsenate with batch experiments under different reaction conditions. The results showed that arsenite transformation occurred and was accompanied by the adsorption and fixation of both As(III) and As(V) on α-MnO2. About 90% of sodium arsenite (10 mg/L) were transformed by α-MnO2 under the conditions of 25 °C and pH 6.0, 36.6% of which was adsorbed and 28.9% fixed by α-MnO2. Increased α-MnO2 dosages promoted As (III) transformation rate and adsorption of arsenic species. The transformation rate and adsorption of arsenic species raised with increasing pH values of reaction solution from 4.7 to 8.0. The oxidation rate decreased and adsorbed As(III) and As(V) increased with increasing initial arsenite concentration. The enhancement on oxidative transformation of sodium arsenite may result from abundant active sites of α-MnO2. Along with adsorption and fixation of arsenic species during the reaction, the crystal structure of α-MnO2 did not change, but the surface turned petty and loosen. Our results demonstrated that α-MnO2 has important potential in arsenic transformation and removal as the environmentally friendly natural oxidant in soil and surface water.