Autoxidation of Cycloalkenes by the System “Molecular Oxygen-bis(acetylacetonato) Cobalt (II) Complex-butyraldehyde”

doi:10.5012/bkcs.2009.30.10.2208

Bulletin of the Korean Chemical Society

2009

DOI: 10.5012/bkcs.2009.30.10.2208

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Autoxidation of Cycloalkenes by the System “Molecular Oxygen-bis(acetylacetonato) Cobalt (II) Complex-butyraldehyde”

Abstract: Oxidation of cycloalkenes with O2 promoted by heterogeneous bis(acetylacetonato) cobalt (II) complex catalyst which can be recycled has been performed under mild conditions. It was found that β-ionone, cyclohexene, 1-methylcyclohexene, and α-ionone were efficiently oxidized with O2 in the presence of Co (II) complex and butyraldehyde at 55 o C. A simple treatment of the resulting products led to epoxides as predominant products and a small amounts of allylic oxides, the chemoselectivity for the former being 82… Show more

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Cited by 6 publications

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ChemInform Abstract: Autoxidation of Cycloalkenes by the System “Molecular Oxygen‐bis(acetylacetonato) Cobalt(II) Complex‐butyraldehyde”.

Zhao¹,

Tang²,

Zhang³

et al. 2010

ChemInform

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Autoxidation of Cycloalkenes by the System "Molecular Oxygen-bis(acetylacetonato) Cobalt(II) Complex-butyraldehyde". -Chloromethylated polystyrene resin grafted with Co(acac)2 in combination with Pr-CHO shows a reasonable catalytic activity and selectivity for the oxidation of various cycloalkenes with molecular oxygen under mild conditions. The ratio of epoxidation and allylic oxidation products strongly depends on the structure of the cycloalkenes.

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ChemInform Abstract: Autoxidation of Cycloalkenes by the System “Molecular Oxygen‐bis(acetylacetonato) Cobalt(II) Complex‐butyraldehyde”.

Zhao¹,

Tang²,

Zhang³

et al. 2010

ChemInform

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show abstract

N‐Heterocyclic Carbene Dirhodium(II) Complexes as Catalysts for Allylic and Benzylic Oxidations

Coelho

Trindade

Wanke³

et al. 2013

Eur J Org Chem

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The experimental conditions (solvent, base, temperature and oxidant) for allylic and benzylic oxidation reactions catalyzed by dirhodium(II)/N‐heterocyclic carbene (NHC) complexes were optimized for the first time in this work. The oxidations of cyclohexene and fluorene were used as model reactions. Two optimized experimental conditions for both types of oxidations were found, which resulted in their ketone [aerobic conditions, 40 °C, 1 equiv. tBuOOH (TBHP)] or tert‐butyl peroxide derivatives (anaerobic conditions, 25 °C, 2 equiv. TBHP). The dirhodium(II) complexes undergo a single‐electron reversible oxidation by cyclic voltammetry in CH2Cl2, which is assigned to the Rh24+/Rh25+ redox couple at an oxidation potential that is lowered upon sequential axial coordination of further ligands to the Rh–Rh centre. The oxidation potential is discussed in terms of the electron‐donor character of the NHC ligand, which was shown to act as an effective electron‐releaser to the Rh24+ centre, and the electrochemical behaviour is compared to the observed catalytic activity.

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DoE (Design of Experiments) Assisted Allylic Hydroxylation of Enones Catalysed by a Copper–Aluminium Mixed Oxide

et al. 2013

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The allylic hydroxylation of enones using dioxygen as the oxidant has been studied. The reaction was first examined in the absence of any catalyst, using β-ionone as a model substrate. Then a new copper-aluminium mixed oxide, Cu-Al Ox, was prepared and characterized in order to be used as a catalyst. This oxide showed good activity, and provided the corresponding γor ε-hydroxylated enones, starting from different α,βor α,β,γ,δ-unsaturated ketones. In all cases, the [a]

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Autoxidation of Cycloalkenes by the System “Molecular Oxygen-bis(acetylacetonato) Cobalt (II) Complex-butyraldehyde”

Cited by 6 publications

References 32 publications

ChemInform Abstract: Autoxidation of Cycloalkenes by the System “Molecular Oxygen‐bis(acetylacetonato) Cobalt(II) Complex‐butyraldehyde”.

ChemInform Abstract: Autoxidation of Cycloalkenes by the System “Molecular Oxygen‐bis(acetylacetonato) Cobalt(II) Complex‐butyraldehyde”.

N‐Heterocyclic Carbene Dirhodium(II) Complexes as Catalysts for Allylic and Benzylic Oxidations

DoE (Design of Experiments) Assisted Allylic Hydroxylation of Enones Catalysed by a Copper–Aluminium Mixed Oxide

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