Unusual Ar−H/Rh−H JHH NMR Coupling in Complexes of Rhodium(III):  Experimental Evidence and Theoretical Support for an η1−Arene Structure

J.R. Krumper; Michael Gerisch; Alessandra Magistrato; Ursula Röthlisberger; Robert G. Bergman; T Don Tilley

doi:10.1021/ja047665b

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T Don Tilley

University of California, Berkeley

Unusual Ar−H/Rh−H JHH NMR Coupling in Complexes of Rhodium(III): Experimental Evidence and Theoretical Support for an η1−Arene Structure

Article 2004 en

Authors

JK
J.R. Krumper
MG
Michael Gerisch
AM
Alessandra Magistrato

Abstract

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The synthesis and structural properties of three new hydridorhodium(III) complexes are reported. Hydrogenolysis of the cyclometalated rhodium dichloride complexes [RhCl(2)[(S,S)-benbox(Me(2))]] (2a-c) leads to formation of the new complexes [RhCl(2)(H)[(S,S)-ip-benbox(Me(2))H]] (3a-c) in 45% to 85% yield. Compounds 3a-c were found to have unusual features by NMR spectroscopy: in particular, downfield shifted aryl proton resonances (8.88-9.03 ppm) that were coupled to the rhodium hydride resonances. Using X-ray crystallographic studies, a variety of solid- and solution-state characterization techniques, and DFT calculations, these features were attributed to the presence of weak pi-type eta(1)-arene interactions in 3a-c.

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