1994
DOI: 10.1021/ic00097a029
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Studies of Stability and Reactivity of Synthetic Cryptomelane-like Manganese Oxide Octahedral Molecular Sieves

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Cited by 81 publications
(54 citation statements)
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“…Cryptomelane and todorokite were constructed by covalent-bond linked MnO 6 octahedral chains (Post, 1992) and are more stable and exhibit weaker activity on Cr(III) oxidation than birnessite . Compared with todorokite, weakly crystallized cryptomelane possessed more growth defects in its crystal lattice, higher surface area and greater amount of active oxygen in its tunnel structure (Yin et al, 1994). These may account for its stronger oxidization of Cr(III) than todorokite.…”
Section: Cr(iii) Oxidization By the Synthesized Mn Oxide Mineralsmentioning
confidence: 99%
“…Cryptomelane and todorokite were constructed by covalent-bond linked MnO 6 octahedral chains (Post, 1992) and are more stable and exhibit weaker activity on Cr(III) oxidation than birnessite . Compared with todorokite, weakly crystallized cryptomelane possessed more growth defects in its crystal lattice, higher surface area and greater amount of active oxygen in its tunnel structure (Yin et al, 1994). These may account for its stronger oxidization of Cr(III) than todorokite.…”
Section: Cr(iii) Oxidization By the Synthesized Mn Oxide Mineralsmentioning
confidence: 99%
“…[224,225] A small concentration of manganese vacancies is often observed, and a limited amount of manganese substitution is also possible. The water of hydration can be removed at temperatures up to about 500 8C, to yield nanoporous materials that will adsorb small organic molecules such as cyclohexane.…”
Section: Reviewsmentioning
confidence: 99%
“…Due to the various oxidation states of Mn element, manganese oxides (␣-MnO 2 , ␤-MnO 2 and ␥-MnO 2 ) have wide application in many fields [18,19]. Birnessitetype manganese oxide is an octahedral layer (OL) material with cations and water in the interlayer space of negatively charged layers of edge-sharing MnO 6 octahedral containing mixed valence states of Mn (Mn 4+ , Mn 3+ , Mn 2+ ions) and oxygen vacancies [20,21]. This material has been applied for the adsorption of heavy metal cations [22], catalytic oxidation of alcohols/CO [23] and decomposition of the organic sulfur compounds [24].…”
Section: Introductionmentioning
confidence: 99%