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Iron Coordination Chemistry with New Ligands Containing Triazole and Pyridine Moieties. Comparison of the Coordination Ability of the N‑Donors

We report the synthesis, characterization, and solution chemistry of a series of new FeII complexes based on the tetradentate ligand N-methyl-N,N′-bis(2-pyridyl-methyl)-1,2-diaminoethane or the pentadentate ones N,N′,N′-tris(2-pyridyl-methyl)-1,2-diaminoethane and N,N′,N′-tris(2-pyridyl-methyl)-1,3-...

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Published in:	Inorganic chemistry 2013-01, Vol.52 (2), p.691-700
Main Authors:	Ségaud, Nathalie, Rebilly, Jean-Noël, Sénéchal-David, Katell, Guillot, Régis, Billon, Laurianne, Baltaze, Jean-Pierre, Farjon, Jonathan, Reinaud, Olivia, Banse, Frédéric
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Language:	English
Subjects:	Catalysis Coordination Complexes - chemistry Iron - chemistry Ligands Molecular Structure Nitrogen Compounds - chemistry Pyridines - chemistry Triazoles - chemistry
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cited_by	cdi_FETCH-LOGICAL-a315t-414c24c0f9d9127f5ee8a212d3e5a94d9cc4472a1524166ebcc42e1cee602e433
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container_title	Inorganic chemistry
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creator	Ségaud, Nathalie Rebilly, Jean-Noël Sénéchal-David, Katell Guillot, Régis Billon, Laurianne Baltaze, Jean-Pierre Farjon, Jonathan Reinaud, Olivia Banse, Frédéric
description	We report the synthesis, characterization, and solution chemistry of a series of new FeII complexes based on the tetradentate ligand N-methyl-N,N′-bis(2-pyridyl-methyl)-1,2-diaminoethane or the pentadentate ones N,N′,N′-tris(2-pyridyl-methyl)-1,2-diaminoethane and N,N′,N′-tris(2-pyridyl-methyl)-1,3-diaminopropane, modified by propynyl or methoxyphenyltriazolyl groups on the amino functions. Six of these complexes are characterized by X-ray crystallography. In particular, two of them exhibit an hexadentate coordination environment around FeII with two amino, three pyridyl, and one triazolyl groups. UV–visible and cyclic voltammetry experiments of acetonitrile solutions of the complexes allow to deduce accurately the structure of all FeII species in equilibrium. The stability of the complexes could be ranked as follows: [L5FeII-py]2+ > [L5FeII–Cl]+ > [L5FeII-triazolyl]2+ > [L5FeII-(NCMe)]2+, where L5 designates a pentadentate coordination sphere composed of the two amines of ethanediamine and three pyridines. For complexes based on propanediamine, the hierarchy determined is [L5FeII–Cl]+ > [L5FeII(OTf)]+ > [L5FeII-(NCMe)]2+, and no ligand exchange could be evidenced for [L5FeII-triazolyl]2+. Reactivity of the [L5FeII-triazolyl]2+ complexes with hydrogen peroxide and PhIO is similar to the one of the parent complexes that lack this peculiar group, that is, generation of FeIII(OOH) and FeIV(O), respectively. Accordingly, the ability of these complexes at catalyzing the oxidation of small organic molecules by these oxidants follows the tendencies of their previously reported counterparts. Noteworthy is the remarkable cyclooctene epoxidation activity by these complexes in the presence of PhIO.
doi_str_mv	10.1021/ic301834x
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Six of these complexes are characterized by X-ray crystallography. In particular, two of them exhibit an hexadentate coordination environment around FeII with two amino, three pyridyl, and one triazolyl groups. UV–visible and cyclic voltammetry experiments of acetonitrile solutions of the complexes allow to deduce accurately the structure of all FeII species in equilibrium. The stability of the complexes could be ranked as follows: [L5FeII-py]2+ > [L5FeII–Cl]+ > [L5FeII-triazolyl]2+ > [L5FeII-(NCMe)]2+, where L5 designates a pentadentate coordination sphere composed of the two amines of ethanediamine and three pyridines. For complexes based on propanediamine, the hierarchy determined is [L5FeII–Cl]+ > [L5FeII(OTf)]+ > [L5FeII-(NCMe)]2+, and no ligand exchange could be evidenced for [L5FeII-triazolyl]2+. Reactivity of the [L5FeII-triazolyl]2+ complexes with hydrogen peroxide and PhIO is similar to the one of the parent complexes that lack this peculiar group, that is, generation of FeIII(OOH) and FeIV(O), respectively. Accordingly, the ability of these complexes at catalyzing the oxidation of small organic molecules by these oxidants follows the tendencies of their previously reported counterparts. 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Comparison of the Coordination Ability of the N‑Donors</title><title>Inorganic chemistry</title><addtitle>Inorg. Chem</addtitle><description>We report the synthesis, characterization, and solution chemistry of a series of new FeII complexes based on the tetradentate ligand N-methyl-N,N′-bis(2-pyridyl-methyl)-1,2-diaminoethane or the pentadentate ones N,N′,N′-tris(2-pyridyl-methyl)-1,2-diaminoethane and N,N′,N′-tris(2-pyridyl-methyl)-1,3-diaminopropane, modified by propynyl or methoxyphenyltriazolyl groups on the amino functions. Six of these complexes are characterized by X-ray crystallography. In particular, two of them exhibit an hexadentate coordination environment around FeII with two amino, three pyridyl, and one triazolyl groups. UV–visible and cyclic voltammetry experiments of acetonitrile solutions of the complexes allow to deduce accurately the structure of all FeII species in equilibrium. The stability of the complexes could be ranked as follows: [L5FeII-py]2+ > [L5FeII–Cl]+ > [L5FeII-triazolyl]2+ > [L5FeII-(NCMe)]2+, where L5 designates a pentadentate coordination sphere composed of the two amines of ethanediamine and three pyridines. For complexes based on propanediamine, the hierarchy determined is [L5FeII–Cl]+ > [L5FeII(OTf)]+ > [L5FeII-(NCMe)]2+, and no ligand exchange could be evidenced for [L5FeII-triazolyl]2+. Reactivity of the [L5FeII-triazolyl]2+ complexes with hydrogen peroxide and PhIO is similar to the one of the parent complexes that lack this peculiar group, that is, generation of FeIII(OOH) and FeIV(O), respectively. Accordingly, the ability of these complexes at catalyzing the oxidation of small organic molecules by these oxidants follows the tendencies of their previously reported counterparts. 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UV–visible and cyclic voltammetry experiments of acetonitrile solutions of the complexes allow to deduce accurately the structure of all FeII species in equilibrium. The stability of the complexes could be ranked as follows: [L5FeII-py]2+ > [L5FeII–Cl]+ > [L5FeII-triazolyl]2+ > [L5FeII-(NCMe)]2+, where L5 designates a pentadentate coordination sphere composed of the two amines of ethanediamine and three pyridines. For complexes based on propanediamine, the hierarchy determined is [L5FeII–Cl]+ > [L5FeII(OTf)]+ > [L5FeII-(NCMe)]2+, and no ligand exchange could be evidenced for [L5FeII-triazolyl]2+. Reactivity of the [L5FeII-triazolyl]2+ complexes with hydrogen peroxide and PhIO is similar to the one of the parent complexes that lack this peculiar group, that is, generation of FeIII(OOH) and FeIV(O), respectively. Accordingly, the ability of these complexes at catalyzing the oxidation of small organic molecules by these oxidants follows the tendencies of their previously reported counterparts. Noteworthy is the remarkable cyclooctene epoxidation activity by these complexes in the presence of PhIO.</abstract><cop>United States</cop><pub>American Chemical Society</pub><pmid>23301704</pmid><doi>10.1021/ic301834x</doi><tpages>10</tpages></addata></record>
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source	American Chemical Society:Jisc Collections:American Chemical Society Read & Publish Agreement 2022-2024 (Reading list)
subjects	Catalysis Coordination Complexes - chemistry Iron - chemistry Ligands Molecular Structure Nitrogen Compounds - chemistry Pyridines - chemistry Triazoles - chemistry
title	Iron Coordination Chemistry with New Ligands Containing Triazole and Pyridine Moieties. Comparison of the Coordination Ability of the N‑Donors
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