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W4287654753 endingPage "2075" @default.
W4287654753 startingPage "2063" @default.
W4287654753 abstract "Phyllomanganates of the birnessite family are the most abundant manganese oxides on Earth and the strongest inorganic oxidants in the environment. Birnessite controls the oxidative scavenging of cobalt in soils, lake and marine sediments, and ferromanganese crusts and nodules, leading to enrichments of the order of one billion times the concentration in solution. However, a detailed mechanistic understanding of the enrichment processes is lacking. Here, we perform density functional theory calculations to explore the mechanisms of Co(II) to Co(III) oxidation on the layer edge and surface of birnessite nanoparticles. We show that Co(II) sorption on a layer edge is an unlikely oxidation pathway. In contrast, Co(II) sorbed on a Mn(IV) vacancy site exposed on the layer surface as an octahedral triple-corner sharing (TCS) complex enters the vacancy where it is oxidized to Co(III) by a layer Mn(IV) cation, which is reduced to Mn(III). The stepwise reaction proceeds as follows. The octahedral TCS complex is transformed into a smaller tetrahedral TCS complex, allowing Co(II) to cross the surface oxygen layer and to fill the empty octahedral Mn(IV) site. When in the octahedral vacancy, Co(II) is converted from the high-spin (t2g5eg2) to the low-spin (t2g6eg1) state and the Co(II) octahedron becomes strongly distorted by the Jahn–Teller effect. Afterward, the electron exchange reaction between Mn(IV) (t2g3eg0) and Co(II) (t2g6eg1) takes place, resulting in the formation of a regular low-spin Co(III) (t2g6eg0) octahedron and a Jahn–Teller distorted high-spin Mn(III) (t2g3eg1) octahedron. These findings refine previously proposed mechanisms of Co(II) oxidation by birnessite and fill gaps in our understanding of global Co sequestration in natural systems." @default.
W4287654753 created "2022-07-25" @default.
W4287654753 creator A5043194301 @default.
W4287654753 creator A5053641292 @default.
W4287654753 date "2022-07-25" @default.
W4287654753 modified "2023-09-30" @default.
W4287654753 title "Density Functional Theory Modeling of the Oxidation Mechanism of Co(II) by Birnessite" @default.
W4287654753 cites W120314113 @default.
W4287654753 cites W1606539402 @default.
W4287654753 cites W1964805062 @default.
W4287654753 cites W1966802448 @default.
W4287654753 cites W1967360874 @default.
W4287654753 cites W1974264739 @default.
W4287654753 cites W1975826120 @default.
W4287654753 cites W1987094455 @default.
W4287654753 cites W1988091937 @default.
W4287654753 cites W1988824305 @default.
W4287654753 cites W1988960405 @default.
W4287654753 cites W1990238060 @default.
W4287654753 cites W1990430564 @default.
W4287654753 cites W1990442032 @default.
W4287654753 cites W1994309475 @default.
W4287654753 cites W1995384840 @default.
W4287654753 cites W1995522656 @default.
W4287654753 cites W1995840881 @default.
W4287654753 cites W2002877849 @default.
W4287654753 cites W2003045989 @default.
W4287654753 cites W2003428684 @default.
W4287654753 cites W2008423326 @default.
W4287654753 cites W2009186438 @default.
W4287654753 cites W2010021013 @default.
W4287654753 cites W2011215428 @default.
W4287654753 cites W2012621192 @default.
W4287654753 cites W2016309183 @default.
W4287654753 cites W2023390323 @default.
W4287654753 cites W2028737333 @default.
W4287654753 cites W2029647685 @default.
W4287654753 cites W2036262091 @default.
W4287654753 cites W2037689872 @default.
W4287654753 cites W2042497439 @default.
W4287654753 cites W2046764742 @default.
W4287654753 cites W2052321137 @default.
W4287654753 cites W2056465415 @default.
W4287654753 cites W2057104903 @default.
W4287654753 cites W2057722460 @default.
W4287654753 cites W2061530776 @default.
W4287654753 cites W2065628887 @default.
W4287654753 cites W2066302239 @default.
W4287654753 cites W2068326263 @default.
W4287654753 cites W2069476992 @default.
W4287654753 cites W2071222120 @default.
W4287654753 cites W2075007064 @default.
W4287654753 cites W2080500830 @default.
W4287654753 cites W2081805883 @default.
W4287654753 cites W2082568683 @default.
W4287654753 cites W2093391449 @default.
W4287654753 cites W2095664287 @default.
W4287654753 cites W2096412281 @default.
W4287654753 cites W2096747776 @default.
W4287654753 cites W2097422474 @default.
W4287654753 cites W2098107208 @default.
W4287654753 cites W2099417991 @default.
W4287654753 cites W2106833210 @default.
W4287654753 cites W2109966375 @default.
W4287654753 cites W2110221529 @default.
W4287654753 cites W2110850807 @default.
W4287654753 cites W2111289042 @default.
W4287654753 cites W2115837617 @default.
W4287654753 cites W2119547517 @default.
W4287654753 cites W2120497942 @default.
W4287654753 cites W2122574387 @default.
W4287654753 cites W2125667611 @default.
W4287654753 cites W2131471181 @default.
W4287654753 cites W2134260166 @default.
W4287654753 cites W2140408128 @default.
W4287654753 cites W2141796847 @default.
W4287654753 cites W2144379540 @default.
W4287654753 cites W2148911913 @default.
W4287654753 cites W2149421142 @default.
W4287654753 cites W2149626823 @default.
W4287654753 cites W2157261054 @default.
W4287654753 cites W2167590372 @default.
W4287654753 cites W2170424371 @default.
W4287654753 cites W2182633026 @default.
W4287654753 cites W2205297496 @default.
W4287654753 cites W2227148273 @default.
W4287654753 cites W2244524084 @default.
W4287654753 cites W2274283529 @default.
W4287654753 cites W2281430053 @default.
W4287654753 cites W2289960406 @default.
W4287654753 cites W2303609792 @default.
W4287654753 cites W2307981157 @default.
W4287654753 cites W2312257022 @default.
W4287654753 cites W2317140801 @default.
W4287654753 cites W2323452019 @default.
W4287654753 cites W2334795619 @default.
W4287654753 cites W2337015900 @default.
W4287654753 cites W2344194611 @default.