Novel [Au(NHC)(DIC)]BF4 complexes (NHC=SIMes, IMes, SIPr, IPr;DIC=2,6-dimethyl-phenyl isocyanide)were synthesized and characterized. These substrates react with secondary amines at room temperature under mild experimental conditions to give new bis-carbene NHC-NAC derivatives. The reaction of formation of the latter complexes with piperidine, morpholine, and diethylamine was studied by NMR and UV-vis spectrometry, and a mechanism involving a concomitant attack of the amine at the metal center and at the coordinated isocyanide was proposed on the basis of a detailed kinetic study. Themechanistic networkwas completely resolved bymeans of an independent determination of the equilibrium constant of formation of the adduct [Au(NHC(DIC)(amine)]+, Keq, calculated from the absorbance vs amine concentration data obtained from direct spectrophotometric titration of the starting complex [Au(NHC)(DIC)]+ with the amine. The [Au(NHC){C(NHAr)(NC5H10)}]BF4 bis-carbene complexes obtained by attack of piperidine at the [Au(NHC)(DIC)] derivatives were isolated and fully characterized. The solid-state structures of the new complexes [Au(IMes)(DIC)]BF4 and [Au(IMes){C(NHAr)(NC5H10) }]BF4 were resolved and reported.
Synthesis and Mechanism of Formation of Novel NHC-NAC Bis-Carbene Complexes of Gold(I)
BERTOLASI, Valerio
2011
Abstract
Novel [Au(NHC)(DIC)]BF4 complexes (NHC=SIMes, IMes, SIPr, IPr;DIC=2,6-dimethyl-phenyl isocyanide)were synthesized and characterized. These substrates react with secondary amines at room temperature under mild experimental conditions to give new bis-carbene NHC-NAC derivatives. The reaction of formation of the latter complexes with piperidine, morpholine, and diethylamine was studied by NMR and UV-vis spectrometry, and a mechanism involving a concomitant attack of the amine at the metal center and at the coordinated isocyanide was proposed on the basis of a detailed kinetic study. Themechanistic networkwas completely resolved bymeans of an independent determination of the equilibrium constant of formation of the adduct [Au(NHC(DIC)(amine)]+, Keq, calculated from the absorbance vs amine concentration data obtained from direct spectrophotometric titration of the starting complex [Au(NHC)(DIC)]+ with the amine. The [Au(NHC){C(NHAr)(NC5H10)}]BF4 bis-carbene complexes obtained by attack of piperidine at the [Au(NHC)(DIC)] derivatives were isolated and fully characterized. The solid-state structures of the new complexes [Au(IMes)(DIC)]BF4 and [Au(IMes){C(NHAr)(NC5H10) }]BF4 were resolved and reported.I documenti in SFERA sono protetti da copyright e tutti i diritti sono riservati, salvo diversa indicazione.