Reactivity of an aminopyridine [LMnII]2+ complex with H2O2. Detection of intermediates at low temperature

Sihem Groni; Pierre Dorlet; Guillaume Blain; Sophie Bourcier; Régis Guillot; Elodie Anxolabéhère-Mallart

doi:10.1021/ic702238z

Reactivity of an aminopyridine [LMn^II]²⁺ complex with H₂O₂. Detection of intermediates at low temperature

Sihem Groni
, Pierre Dorlet
, Guillaume Blain
, Sophie Bourcier
, Régis Guillot
, Elodie Anxolabéhère-Mallart

Research output: Contribution to journal › Article › peer-review

Abstract

In the present work we report the reactivity of [LMn^II] ²⁺ toward addition of hydrogen peroxide (H₂O₂) in acetonitrile solution, where L is a pentadentate polypyridine ligand. Formation of peroxo complexes is evidenced by low-temperature UV-visible spectroscopy, ESI-mass spectrometry, and EPR spectroscopy using parallel as well as perpendicular mode detection. The influence of the medium (basicity, water content) on the formation of various species is investigated. In basic nonanhydrous medium the fate of the reaction mixture solution is the formation of the di-μ-oxo mixed-valent Mn(III)Mn(IV) dinuclear complex. In acidic medium the building of the oxo bridges is avoided and the reaction mixture evolves toward oxidation of the ligand L. This reaction route offers new opportunities for the study of oxidation reactivity of Mn (hydro)peroxo complexes.

Original language	English
Pages (from-to)	3166-3172
Number of pages	7
Journal	Inorganic Chemistry
Volume	47
Issue number	8
DOIs	https://doi.org/10.1021/ic702238z
Publication status	Published - 21 Apr 2008

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title = "Reactivity of an aminopyridine [LMnII]2+ complex with H2O2. Detection of intermediates at low temperature",

abstract = "In the present work we report the reactivity of [LMnII] 2+ toward addition of hydrogen peroxide (H2O2) in acetonitrile solution, where L is a pentadentate polypyridine ligand. Formation of peroxo complexes is evidenced by low-temperature UV-visible spectroscopy, ESI-mass spectrometry, and EPR spectroscopy using parallel as well as perpendicular mode detection. The influence of the medium (basicity, water content) on the formation of various species is investigated. In basic nonanhydrous medium the fate of the reaction mixture solution is the formation of the di-μ-oxo mixed-valent Mn(III)Mn(IV) dinuclear complex. In acidic medium the building of the oxo bridges is avoided and the reaction mixture evolves toward oxidation of the ligand L. This reaction route offers new opportunities for the study of oxidation reactivity of Mn (hydro)peroxo complexes.",

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T1 - Reactivity of an aminopyridine [LMnII]2+ complex with H2O2. Detection of intermediates at low temperature

AU - Groni, Sihem

AU - Dorlet, Pierre

AU - Blain, Guillaume

AU - Bourcier, Sophie

AU - Guillot, Régis

AU - Anxolabéhère-Mallart, Elodie

PY - 2008/4/21

Y1 - 2008/4/21

N2 - In the present work we report the reactivity of [LMnII] 2+ toward addition of hydrogen peroxide (H2O2) in acetonitrile solution, where L is a pentadentate polypyridine ligand. Formation of peroxo complexes is evidenced by low-temperature UV-visible spectroscopy, ESI-mass spectrometry, and EPR spectroscopy using parallel as well as perpendicular mode detection. The influence of the medium (basicity, water content) on the formation of various species is investigated. In basic nonanhydrous medium the fate of the reaction mixture solution is the formation of the di-μ-oxo mixed-valent Mn(III)Mn(IV) dinuclear complex. In acidic medium the building of the oxo bridges is avoided and the reaction mixture evolves toward oxidation of the ligand L. This reaction route offers new opportunities for the study of oxidation reactivity of Mn (hydro)peroxo complexes.

AB - In the present work we report the reactivity of [LMnII] 2+ toward addition of hydrogen peroxide (H2O2) in acetonitrile solution, where L is a pentadentate polypyridine ligand. Formation of peroxo complexes is evidenced by low-temperature UV-visible spectroscopy, ESI-mass spectrometry, and EPR spectroscopy using parallel as well as perpendicular mode detection. The influence of the medium (basicity, water content) on the formation of various species is investigated. In basic nonanhydrous medium the fate of the reaction mixture solution is the formation of the di-μ-oxo mixed-valent Mn(III)Mn(IV) dinuclear complex. In acidic medium the building of the oxo bridges is avoided and the reaction mixture evolves toward oxidation of the ligand L. This reaction route offers new opportunities for the study of oxidation reactivity of Mn (hydro)peroxo complexes.

UR - https://www.scopus.com/pages/publications/43149108146

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SN - 0020-1669

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EP - 3172

JO - Inorganic Chemistry

JF - Inorganic Chemistry

IS - 8

ER -

Reactivity of an aminopyridine [LMn^II]²⁺ complex with H₂O₂. Detection of intermediates at low temperature

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