A Comprehensive Investigation of the Chemistry and Basicity of a Parent Amidoruthenium Complex

trans-(DMPE)2Ru(H)(NH2) (1) dehydrogenates cyclohexadiene and 9,10-dihydroanthracene to yield benzene (or anthracene), (DMPE)2Ru(H)2, and ammonia. Addition of fluorene to 1 results in the formation of the ion pair [trans-(DMPE)2Ru(H)(NH3)+][A-] (A- = fluorenide, 4a). Complex 1 also reacts with weak...

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Bibliographic Details
Published in:Journal of the American Chemical Society 2002-05, Vol.124 (17), p.4722-4737
Main Authors: Fulton, J. Robin, Sklenak, Stepan, Bouwkamp, Marco W, Bergman, Robert G
Format: Article
Language:English
Subjects:
Chemistry
Coordination compounds
Exact sciences and technology
Inorganic chemistry and origins of life
Preparations and properties
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Summary:trans-(DMPE)2Ru(H)(NH2) (1) dehydrogenates cyclohexadiene and 9,10-dihydroanthracene to yield benzene (or anthracene), (DMPE)2Ru(H)2, and ammonia. Addition of fluorene to 1 results in the formation of the ion pair [trans-(DMPE)2Ru(H)(NH3)+][A-] (A- = fluorenide, 4a). Complex 1 also reacts with weak acids A−H (A−H = phenylacetylene, 1,2-propadiene, phenylacetonitrile, 4-(α,α,α-trifluoromethyl)phenylacetonitrile, cyclobutanone, phenol, p-cresol, aniline) to form ammonia and trans-(DMPE)2Ru(H)(A) (7, 8, 9a, 9b, 10, 11b, 11c, 12, respectively). In the cases where A−H = phenylacetylene, cyclobutanone, aniline, phenol, and p-cresol, the reaction was observed to proceed via ion pairs analogous to 4a. Compound 1 is reactive toward even weaker acids such as toluene, propylene, ammonia, cycloheptatriene, and dihydrogen, but in these cases deuterium labeling studies revealed that only H/D exchange between A−H and the ND2 group is observed, rather than detectable formation of ion pairs or displacement products. Addition of triphenylmethane to 1 results in the formation of an equilibrium mixture of 1, triphenylmethane, and the ruthenium/triphenylmethide ion pair 4h. If the energetics of ion-pair association are ignored, this result indicates that the basicity of 1 is similar to that of triphenylmethide. All these observations support the conclusion that the NH2 group in amido complex 1 is exceptionally basic and as a result prefers to abstract a proton rather than a hydrogen atom from a reactive C−H bond. The energetics and mechanism of these proton-transfer and -exchange reactions are analyzed with the help of DFT calculations.
ISSN:0002-7863
1520-5126
DOI:10.1021/ja011876o