Chiral Co(II) Metal–Organic Framework in the Heterogeneous Catalytic Oxidation of Alkenes under Aerobic and Anaerobic Conditions

Chiral Co(II) Metal–Organic Framework in the Heterogeneous Catalytic Oxidation of Alkenes under Aerobic and Anaerobic Conditions

The chiral Co(II) MOF [Co(l-RR)(H2O)·H2O]∞ [1; l-RR = (R,R)-thiazolidine-2,4-dicarboxylate] has been exploited in the catalytic oxidation of different alkenes (cyclohexene, (Z)-cyclooctene, 1-octene) using either tert-butyl hydroperoxide ( t BuOOH) or molecular oxygen (O2) as oxidants. Different che...

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Bibliographic Details
Published in:ACS catalysis Vol. 4; no. 3; pp. 1032 - 1039
Main Authors: Tuci, Giulia, Giambastiani, Giuliano, Kwon, Stephanie, Stair, Peter C, Snurr, Randall Q, Rossin, Andrea
Format: Journal Article
Language:English
Published: American Chemical Society 07-03-2014
Subjects:
cobalt (II)
heterogeneous catalysis
alkene oxidation
dioxygen activation
metal−organic frameworks
DFT calculations
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Summary:The chiral Co(II) MOF [Co(l-RR)(H2O)·H2O]∞ [1; l-RR = (R,R)-thiazolidine-2,4-dicarboxylate] has been exploited in the catalytic oxidation of different alkenes (cyclohexene, (Z)-cyclooctene, 1-octene) using either tert-butyl hydroperoxide ( t BuOOH) or molecular oxygen (O2) as oxidants. Different chemoselectivities are observed, both substrate- and oxidant-dependent. A moderate enantioselectivity is also obtained in the case of prochiral precursors, revealing the chiral induction ability of the optically pure metal environment. The interaction of O2 with the exposed metal sites in 1 (after material preactivation and consequent removal of the coordinated aquo ligand) has been studied through TPD-MS analysis combined with DFT calculations, with the aim of probing effective oxygen uptake by the heterogeneous catalyst and unraveling the nature of the active species in the catalytic oxidation process under aerobic conditions. Theoretical results indicate the presence of an η1-superoxo species at the cobalt center, with concomitant Co(II) ↔ Co(III) oxidation. Finally, the experimental estimation of the O2 adsorption enthalpy is found to be in good agreement with the calculated binding energy.
ISSN:2155-5435
2155-5435
DOI:10.1021/cs401003d