Exceedingly Facile PhX Activation (X=Cl,Br, I) with Ruthenium(II): Arresting Kinetics,Autocatalysis, and Mechanisms |
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| Authors: | Dr. Fedor M. Miloserdov Dr. David McKay Dr. Bianca K. Muñoz Dr. Hamidreza Samouei Prof. Stuart A. Macgregor Prof. Vladimir V. Grushin |
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| Affiliation: | 1. Institute of Chemical Research of Catalonia (ICIQ), Avgda. Pa?sos Catalans 16, 43007 Tarragona (Spain);2. Institute of Chemical Sciences, Heriot‐Watt University, Edinburgh EH14 4AS (UK) |
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| Abstract: | [(Ph3P)3Ru(L)(H)2] (where L=H2 ( 1 ) in the presence of styrene, Ph3P ( 3 ), and N2 ( 4 )) cleave the Ph? X bond (X=Cl, Br, I) at RT to give [(Ph3P)3RuH(X)] ( 2 ) and PhH. A combined experimental and DFT study points to [(Ph3P)3Ru(H)2] as the reactive species generated upon spontaneous loss of L from 3 and 4 . The reaction of 3 with excess PhI displays striking kinetics which initially appears zeroth order in Ru. However mechanistic studies reveal that this is due to autocatalysis comprising two factors: 1) complex 2 , originating from the initial PhI activation with 3 , is roughly as reactive toward PhI as 3 itself; and 2) the Ph? I bond cleavage with the just‐produced 2 gives rise to [(Ph3P)2RuI2], which quickly comproportionates with the still‐present 3 to recover 2 . Both the initial and onward activation reactions involve PPh3 dissociation, PhI coordination to Ru through I, rearrangement to a η2‐PhI intermediate, and Ph? I oxidative addition. |
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| Keywords: | Ar‐X activation autocatalysis DFT calculations kinetics ruthenium |
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