Cycloaddition and C–S Bond Cleavage Processes
in Reactions of Heterometallic Phosphinidene-Bridged MoRe and MoMn
Complexes with Alkynes and Phenyl Isothiocyanate
posted on 2023-07-07, 12:36authored byM. Angeles Alvarez, M. Esther García, Daniel García-Vivó, Miguel A. Ruiz, Patricia Vega
Reactions of [MoReCp(μ-PMes*)(CO)6] with internal
alkynes RCCR yielded the phosphapropenylidene-bridged complexes
[MoReCp(μ-κ2P,C:η3-PMes*CRCR)(CO)5] (Mes* = 2,4,6-C6H2tBu3; R = CO2Me,
Ph). Terminal alkynes HCCR1 gave mixtures of isomers
[MoReCp(μ-κ2P,C:η3-PMes*CHCR1)(CO)5] and [MoReCp(μ-κ2P,C:η3-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 MoP and CC 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-η3:κ1C mode, as shown by the reaction
of [MoReCp(μ-κ2P,C:η3-PMes*CHC(CO2Me)}(CO)5] with CN(p-C6H4OMe) to give [MoReCp{μ-η3:κ1C-PMes*CHC(CO2Me)}(CO)5{CN(p-CH4OMe)}2]. The
MoRe phosphinidene complex reacted with SCNPh to give
as major products the phosphametallacyclic complex [MoReCp{μ-κ2P,S:κ2P,S-PMes*C(NPh)S}(CO)5] and its thiophosphinidene-bridged isomer [MoReCp(μ-η2:κ1S-SPMes*)(CO)5(CNPh)].
The first product follows from a [2 + 2] cycloaddition between MoP
and CS bonds, with specific formation of PC bonds,
whereas the second one would arise from the alternative cycloaddition
involving the formation of PS bonds, more favored on steric
grounds. The prevalence of the μ-η2:κ1S coordination mode of the SPMes* ligand over the
μ-η2:κ1p 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.