On the Mechanism of Iron(III)-Dependent Oxidative Dehydrogenation of Amines
| dc.contributor.author | Saucedo-Vazquez, Pablo Juan | deu |
| dc.contributor.author | Ugalde-Saldivar, Victor Manuel | deu |
| dc.contributor.author | Toscano, Alfredo Ruben | deu |
| dc.contributor.author | Kroneck, Peter M. H. | |
| dc.contributor.author | Sosa-Torres, Martha E. | deu |
| dc.date.accessioned | 2011-03-23T09:07:29Z | deu |
| dc.date.available | 2011-03-23T09:07:29Z | deu |
| dc.date.issued | 2009 | deu |
| dc.description.abstract | Kinetic and structural data are presented for the iron-promoted dehydrogenation of the amine, [Fe(III)L3]3+ (1), L3 = 1,9-bis(2′-pyridyl)-5-[(ethoxy-2′′-pyridyl)methyl]-2,5,8-triazanonane. Spectroscopic and electrochemical experiments under the exclusion of dioxygen helped to identify reaction intermediates and the final product, the Fe(II)-monoimine complex [Fe(II)L4]2+ (2), L4 = 1,9-bis(2′-pyridyl)-5-[(ethoxy-2′′-pyridyl)methyl]-2,5,8-triazanon-1-ene. 2 is formed by disproportionation of the starting complex 1 by a three-step reaction mechanism, most likely via ligand-centered radical intermediates. The rate law can be described by the second-order rate equation, −d[(Fe(III)L3)3+]/dt = kEtO−[(Fe(III)L3)3+][EtO−], with kEtO− = 4.92 ± 0.01 × 104 M−1 s−1 (60 °C, μ = 0.01 M). The detection of general base catalysis and a primary kinetic isotope effect (kEtO−H/kEtO−D = 1.73) represents the first kinetic demonstration that the deprotonation becomes rate determining followed by electron transfer in the oxidative dehydrogenation mechanism. We also isolated the Fe(II)-monoimine complex 2 and determined its structure in solution (NMR) and in the solid state (X-ray). | eng |
| dc.description.version | published | |
| dc.identifier.citation | Publ. in: Inorganic Chemistry 48 (2009), 3, pp. 1214-1222 | deu |
| dc.identifier.doi | 10.1021/ic8016968 | |
| dc.identifier.pmid | 19123832 | |
| dc.identifier.uri | http://kops.uni-konstanz.de/handle/123456789/1261 | |
| dc.language.iso | eng | deu |
| dc.legacy.dateIssued | 2010 | deu |
| dc.rights | terms-of-use | deu |
| dc.rights.uri | https://rightsstatements.org/page/InC/1.0/ | deu |
| dc.subject.ddc | 570 | deu |
| dc.title | On the Mechanism of Iron(III)-Dependent Oxidative Dehydrogenation of Amines | eng |
| dc.type | JOURNAL_ARTICLE | deu |
| dspace.entity.type | Publication | |
| kops.citation.bibtex | @article{SaucedoVazquez2009Mecha-1261,
year={2009},
doi={10.1021/ic8016968},
title={On the Mechanism of Iron(III)-Dependent Oxidative Dehydrogenation of Amines},
number={3},
volume={48},
issn={0020-1669},
journal={Inorganic Chemistry},
pages={1214--1222},
author={Saucedo-Vazquez, Pablo Juan and Ugalde-Saldivar, Victor Manuel and Toscano, Alfredo Ruben and Kroneck, Peter M. H. and Sosa-Torres, Martha E.}
} | |
| kops.citation.iso690 | SAUCEDO-VAZQUEZ, Pablo Juan, Victor Manuel UGALDE-SALDIVAR, Alfredo Ruben TOSCANO, Peter M. H. KRONECK, Martha E. SOSA-TORRES, 2009. On the Mechanism of Iron(III)-Dependent Oxidative Dehydrogenation of Amines. In: Inorganic Chemistry. 2009, 48(3), pp. 1214-1222. ISSN 0020-1669. eISSN 1520-510X. Available under: doi: 10.1021/ic8016968 | deu |
| kops.citation.iso690 | SAUCEDO-VAZQUEZ, Pablo Juan, Victor Manuel UGALDE-SALDIVAR, Alfredo Ruben TOSCANO, Peter M. H. KRONECK, Martha E. SOSA-TORRES, 2009. On the Mechanism of Iron(III)-Dependent Oxidative Dehydrogenation of Amines. In: Inorganic Chemistry. 2009, 48(3), pp. 1214-1222. ISSN 0020-1669. eISSN 1520-510X. Available under: doi: 10.1021/ic8016968 | eng |
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<dcterms:abstract xml:lang="eng">Kinetic and structural data are presented for the iron-promoted dehydrogenation of the amine, [Fe(III)L3]3+ (1), L3 = 1,9-bis(2′-pyridyl)-5-[(ethoxy-2′′-pyridyl)methyl]-2,5,8-triazanonane. Spectroscopic and electrochemical experiments under the exclusion of dioxygen helped to identify reaction intermediates and the final product, the Fe(II)-monoimine complex [Fe(II)L4]2+ (2), L4 = 1,9-bis(2′-pyridyl)-5-[(ethoxy-2′′-pyridyl)methyl]-2,5,8-triazanon-1-ene. 2 is formed by disproportionation of the starting complex 1 by a three-step reaction mechanism, most likely via ligand-centered radical intermediates. The rate law can be described by the second-order rate equation, −d[(Fe(III)L3)3+]/dt = kEtO−[(Fe(III)L3)3+][EtO−], with kEtO− = 4.92 ± 0.01 × 104 M−1 s−1 (60 °C, μ = 0.01 M). The detection of general base catalysis and a primary kinetic isotope effect (kEtO−H/kEtO−D = 1.73) represents the first kinetic demonstration that the deprotonation becomes rate determining followed by electron transfer in the oxidative dehydrogenation mechanism. We also isolated the Fe(II)-monoimine complex 2 and determined its structure in solution (NMR) and in the solid state (X-ray).</dcterms:abstract>
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| kops.sourcefield.plain | Inorganic Chemistry. 2009, 48(3), pp. 1214-1222. ISSN 0020-1669. eISSN 1520-510X. Available under: doi: 10.1021/ic8016968 | eng |
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