2012
DOI: 10.1039/c2cc16277f
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Preparation and structures of dinuclear complexes containing MII–OH centers

Abstract: The synthesis of MII2 complexes (MII = Co, Mn) with terminal hydroxo ligands has been achieved utilizing a dinucleating ligand containing a bridging pyrazolate unit and appended (neopentyl)aminopyridyl groups. Structurally studies on the complexes revealed that the MII–OH units are positioned in a syn-configuration, placing the hydroxo ligands in close proximity (ca. 3 Å apart), which may be a prerequisite for water oxidation.

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Cited by 20 publications
(16 citation statements)
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“…The two reactive cobalt-bound hydroxo moieties are adjacent to each other, but resist dehydration. 18 A double terminal hydroxo rhombus with a distance of ca. 3 Å is formed, stabilized by the dense intramolecular hydrogen bonds.…”
Section: Aminesmentioning
confidence: 99%
“…The two reactive cobalt-bound hydroxo moieties are adjacent to each other, but resist dehydration. 18 A double terminal hydroxo rhombus with a distance of ca. 3 Å is formed, stabilized by the dense intramolecular hydrogen bonds.…”
Section: Aminesmentioning
confidence: 99%
“…Each metal center has an additional open coordination site that may accommodate terminal ligands in a syn geometry. This structural feature is of interest in the design of synthetic molecular water oxidation catalysts, 29 as well as other catalysts (e.g., for oxidative dehydrogenation). 30,31 The following results describe the dinucleating ability of DPFN for the first-row transition metals from manganese to copper, with chloro, hydroxo, and aqua bridging ligands that give the diamond-shaped core structure.…”
Section: Introductionmentioning
confidence: 99%
“…Such studies would benefit from the availability of structural and functional models of the active sites for cobalt-based catalysts, which until now has been greatly limited. 12 For heterogeneous catalysts, the active site is thought to involve more than one metal center; therefore, a challenging goal is the synthesis of relevant, well-defined assemblies of cobalt centers. 13,14 In this contribution, we report the synthesis and study of a model for proposed dinuclear active sites, 15 which allows interrogation of structural, chemical, and catalytic properties.…”
mentioning
confidence: 99%