Reaction of aqueous Cu-Citrate with MnO2 birnessite: characterization of Mn dissolution, oxidation products and surface interactions

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2015
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Abstract
Citric acid, a widespread soil rhizosphere plant/microbe carboxylic acid exudate can easily form chelates with heavy metals, increasing their availability in the environment. When Cu(II) from algal control in water bodies or reservoirs and fungicides, such as the Bordeaux mixture, and citrate intera …
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Authors Jefferson WA;Hu C;Liu H;Qu J;;
Journal Chemosphere
Year 2015
DOI
DOI not found
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https://www.ncbi.nlm.nih.gov/pubmed/25460741
Keywords
catalysis National Center for Biotechnology Information NCBI NLM MEDLINE pubmed abstract nih national institutes of health national library of medicine models research support non-u.s. gov't electrophoresis molecular structure water / chemistry oxidation-reduction photoelectron spectroscopy solubility capillary pmid:25460741 doi:10.1016/j.chemosphere.2014.04.039 william a jefferson chengzhi hu jiuhui qu adsorption citrates / analysis* copper / adverse effects* copper / pharmacology eutrophication* manganese compounds / analysis* chemical oxides / analysis* soil pollutants / chemistry* water pollution / prevention & control*

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