Tailoring RuII pyridine/triazole oxygenation catalysts and using photoreactivity to probe their electronic properties

Fritz Weisser; Hendrik Stevens; Johannes Klein; Margarethe Van Der Meer; Stephan Hohloch; Biprajit Sarkar

doi:10.1002/chem.201406441

Tailoring Ru^II pyridine/triazole oxygenation catalysts and using photoreactivity to probe their electronic properties

Fritz Weisser, Hendrik Stevens, Johannes Klein, Margarethe Van Der Meer, Stephan Hohloch, Biprajit Sarkar

Chemistry (Twin Cities)

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

33 Scopus citations

Abstract

Tuning of ligand properties is at the heart of influencing chemical reactivity and generating tailor-made catalysts. Herein, three series of complexes [Ru(L)(Cl)(X)]PF₆ (X=DMSO, PPh₃, or CD₃CN) with tripodal ligands (L1-L5) containing pyridine and triazole arms are presented. Triazole-for-pyridine substitution and the substituent at the triazole systematically influence the redox behavior and photoreactivity of the complexes. The mechanism of the light-driven ligand exchange of the DMSO complexes in CD₃CN could be elucidated, and two seven-coordinate intermediates were identified. Finally, tuning of the ligand framework was applied to the catalytic oxygenation of alkanes, for which the DMSO complexes were the best catalysts and the yield improved with increasing number of triazole arms. These results thus show how click-derived ligands can be tuned on demand for catalytic processes.

Original language	English (US)
Pages (from-to)	8926-8938
Number of pages	13
Journal	Chemistry - A European Journal
Volume	21
Issue number	24
DOIs	https://doi.org/10.1002/chem.201406441
State	Published - Jun 1 2015

Keywords

N ligands
oxygenation
photochemistry
ruthenium
tripodal ligands

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title = "Tailoring RuII pyridine/triazole oxygenation catalysts and using photoreactivity to probe their electronic properties",

abstract = "Tuning of ligand properties is at the heart of influencing chemical reactivity and generating tailor-made catalysts. Herein, three series of complexes [Ru(L)(Cl)(X)]PF6 (X=DMSO, PPh3, or CD3CN) with tripodal ligands (L1-L5) containing pyridine and triazole arms are presented. Triazole-for-pyridine substitution and the substituent at the triazole systematically influence the redox behavior and photoreactivity of the complexes. The mechanism of the light-driven ligand exchange of the DMSO complexes in CD3CN could be elucidated, and two seven-coordinate intermediates were identified. Finally, tuning of the ligand framework was applied to the catalytic oxygenation of alkanes, for which the DMSO complexes were the best catalysts and the yield improved with increasing number of triazole arms. These results thus show how click-derived ligands can be tuned on demand for catalytic processes.",

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AU - Weisser, Fritz

AU - Stevens, Hendrik

AU - Klein, Johannes

AU - Van Der Meer, Margarethe

AU - Hohloch, Stephan

AU - Sarkar, Biprajit

PY - 2015/6/1

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KW - N ligands

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KW - photochemistry

KW - ruthenium

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