Co2+-exchange mechanism of birnessite and its application for the removal of Pb2+ and As(III)

Article ID	Journal	Published Year	Pages	File Type
578758	Journal of Hazardous Materials	2011	9 Pages	PDF

Abstract

âº Mn(IV) on the surface of birnessite was the electron sink of Co2+ oxidation. âº Mn(III) was the main reduction product of Co2+ oxidation. âº The content of hydroxyl groups in Co-containing birnessites gradually decreased. âº Pb2+ adsorption capacity of birnessite was reduced after Co2+-ion exchange. âº As(III) oxidation capacity of birnessite was enhanced by Co2+-ion exchange.

Keywords

Arsenite oxidation Cobalt oxidation Birnessite Ion exchange Lead adsorption

Related Topics

Physical Sciences and Engineering Chemical Engineering Chemical Health and Safety

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Co2+-exchange mechanism of birnessite and its application for the removal of Pb2+ and As(III)

Authors

Hui Yin, Fan Liu, Xionghan Feng, Mingming Liu, Wenfeng Tan, Guohong Qiu,