posted on 2019-02-18, 13:48authored byLuca Gregori, Diego Sorbelli, Leonardo Belpassi, Francesco Tarantelli, Paola Belanzoni
A quantitative assessment
of the Dewar–Chatt–Duncanson components of the Au(III)-alkyne
bond in a series of cationic and dicationic bis- and monocyclometalated
gold(III) complexes with 2-butyne via charge-displacement (CD) analysis
is reported. Bonding between Au(III) and 2-butyne invariably shows
a dominant σ donation component, a smaller, but significant,
π back-donation, and a remarkable polarization of the alkyne
CC triple bond toward the metal fragment. A very large net electron
charge transfer from CC triple bond to the metal fragment results,
which turns out to be unexpectedly insensitive to the charge of the
complex and more strictly related to the nature of the ancillary ligand.
The combination of σ donation, π back-donation, and polarization
effects is in fact modulated by the different ligand frameworks, with
ligands bearing atoms different from carbon in trans position with
respect to the alkyne emerging as especially interesting for both
imparting Au(III)-alkyne bond stability and inducing a more effective
alkyne activation. A first attempt to figure out a rationale on the
bonding/reactivity relationship for Au(III)-alkyne is made by performing
a comparative study in a model nucleophilic attack of water to the
alkyne triple bond. Smaller π back-donation facilitates alkyne
slippage in the transition states, which is energetically less demanding
for Au(III) than for Au(I), and suggests a greater propensity of Au(III)
to facilitate the nucleophilic attack.