TY - JOUR ID - 10.1016/j.jes.2022.02.004 TI - Effects of cobalt doping on the reactivity of hausmannite for As(III) oxidation and As(V) adsorption AU - Hui Yin AU - Shuang Zhang AU - Hui Li AU - Zhongkuan Wu AU - Jeffrey E. Post AU - Bruno Lanson AU - Yurong Liu AU - Biyun Hu AU - Mingxia Wang AU - Limei Zhang AU - Mei Hong AU - Fan Liu VL - 34 IS - 12 PB - SP - 217 EP - 226 PY - JF - Journal of Environmental Sciences JA - J. Environ. Sci. UR - http://www.jesc.ac.cn/jesc_en/ch/reader/view_abstract.aspx?file_no=S1001074222000651&flag=1 KW - Corresponding author.;Mn oxide;Hausmannite;Transition-metal;Cobalt;Arsenate adsorption;Arsenite oxidation AB - Hausmannite is a common low valence Mn oxide mineral, with a distorted spinel structure, in surficial sediments. Although natural Mn oxides often contain various impurities of transitional metals (TMs), few studies have addressed the effect and related mechanism of TM doping on the reactivity of hausmannite with metal pollutants. Here, the reactivity of cobalt (Co) doped hausmannite with aqueous As(III) and As(V) was studied. Co doping decreased the point of zero charge of hausmannite and its adsorption capacity for As(V). Despite a reduction of the initial As(III) oxidation rate, Co-doped hausmannite could effectively oxidize As(III) to As(V), followed by the adsorption and fixation of a large amount of As(V) on the mineral surface. Arsenic K-edge EXAFS analysis of the samples after As(V) adsorption and As(III) oxidation revealed that only As(V) was adsorbed on the mineral surface, with an average As-Mn distance of 3.25–3.30 Å, indicating the formation of bidentate binuclear complexes. These results provide new insights into the interaction mechanism between TMs and low valence Mn oxides and their effect on the geochemical behaviors of metal pollutants. ER -