Abstract
The investigations disclosed offer insight regarding several key features of Ru-based catecholthiolate olefin metathesis catalysts. Factors influencing the facility with which the two anionic ligands undergo exchange and those that affect the rates of catalyst release are elucidated by examination of more than a dozen new complexes. These studies shed light on how different chelating groups can influence Ru–S bond strength and, as a result, the facility of catecholthiolate rotation. The trans influence series ether < ester ≈ iodide < amine ≈ thioether ≈ olefin < isonitrile ≈ phosphite has been established through X-ray structural analysis and shown to correlate well with the barrier for catecholthiolate rotation (trans effect) determined by variable-temperature NMR experiments and computational studies (DFT). It is found that, apart from electronic factors, chelate geometry has a more notable effect on the rate of catalyst release (five- vs six-membered chelate ring and mono- vs bidentate ligand). Polytop...
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