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Cycloaddition and C–S Bond Cleavage Processes in Reactions of Heterometallic Phosphinidene-Bridged MoRe and MoMn Complexes with Alkynes and Phenyl Isothiocyanate

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posted on 2023-07-07, 12:36 authored by M. Angeles Alvarez, M. Esther García, Daniel García-Vivó, Miguel A. Ruiz, Patricia Vega
Reactions of [MoReCp(μ-PMes*)(CO)6] with internal alkynes RCCR yielded the phosphapropenylidene-bridged complexes [MoReCp(μ-κ2P,C3-PMes*CRCR)(CO)5] (Mes* = 2,4,6-C6H2tBu3; R = CO2Me, Ph). Terminal alkynes HCCR1 gave mixtures of isomers [MoReCp(μ-κ2P,C3-PMes*CHCR1)(CO)5] and [MoReCp(μ-κ2P,C3-PMes*CR1CH)(CO)5], with the first isomer being major (R1 = CO2Me) or unique (R1 = tBu), indicating the relevance of steric repulsions during the [2 + 2] cycloaddition step between MoP and CC bonds in these reactions. Similar reactions were observed for [MoMnCp(μ-PMes*)(CO)6]. Addition of ligands to these complexes promoted rearrangement of the phosphapropenylidene ligand into the allyl-like μ-η31C mode, as shown by the reaction of [MoReCp(μ-κ2P,C3-PMes*CHC(CO2Me)}(CO)5] with CN(p-C6H4OMe) to give [MoReCp{μ-η31C-PMes*CHC(CO2Me)}(CO)5{CN(p-CH4OMe)}2]. The MoRe phosphinidene complex reacted with SCNPh to give as major products the phosphametallacyclic complex [MoReCp{μ-κ2P,S2P,S-PMes*C(NPh)S}(CO)5] and its thiophosphinidene-bridged isomer [MoReCp(μ-η21S-SPMes*)(CO)5(CNPh)]. The first product follows from a [2 + 2] cycloaddition between MoP and CS bonds, with specific formation of PC bonds, whereas the second one would arise from the alternative cycloaddition involving the formation of PS bonds, more favored on steric grounds. The prevalence of the μ-η21S coordination mode of the SPMes* ligand over the μ-η21p mode was investigated theoretically to conclude that steric congestion favors the first mode, while the kinetic barrier for interconversion between isomers is low in any case.

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