Coordinatively Unsaturated T-Shaped Platinum(II) Complexes Stabilized by Small N-Heterocyclic Carbene Ligands. Synthesis and Cyclometalation

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• 作者：Marta Rosell贸-Merino ; Orestes Rivada-Wheelaghan ; Manuel A. Ortu帽o ; Pietro Vidossich ; Josefina Dı ; ́ ; ez ; Agustı ; ́ ; Lled贸s ; Salvador Conejero
• 刊名：Organometallics
• 出版年：2014
• 出版时间：July 28, 2014
• 年：2014
• 卷：33
• 期：14
• 页码：3746-3756
• 全文大小：549K
• ISSN：1520-6041

文摘

The reaction of the N-heterocyclic carbenes (NHCs) IⁱPr₂Me₂ and IⁱPr₂ with [PtMe₃I]₄ does not lead to the clean formation of complexes trans-[PtMeI(NHC)₂], as previously found for bulkier NHCs. However, these species can be prepared in high yields by an alternative procedure using the dimethyl species [PtMe₂(NHC)₂] and iodomethane. The halogenated complexes trans-[PtMeI(NHC)₂] have been used as precursors for the formation of the coordinatively unsaturated Pt(II) derivatives [PtMe(NHC)₂][SbF₆] using AgSbF₆ as a halogen abstractor, whereas NaBAr^F is not reactive enough to completely remove the iodide ligand, leading instead to the dinuclear species [Pt₂(渭-I)(Me)₂(NHC)₄][BAr^F]. Alternatively, low-coordinate T-shaped complexes [PtMe(NHC)₂][BAr^F] can be prepared by protonation of the dimethyl species [PtMe₂(NHC)₂] with [H(OEt₂)₂][BAr^F]. The complex [PtMe(IⁱPr₂Me₂)₂][BAr^F] undergoes a cyclometalation process under mild heating, leading to the derivative [Pt(IⁱPr₂Me₂鈥?(IⁱPr₂Me₂)][BAr^F] (where the prime denotes the cyclometalated ligand). This result is in contrast with the fast cyclometalation observed for the related Pt(II) complex bearing tert-butyl-substituted NHC (I^tBu). Different cyclometalation reaction mechanisms have been computationally addressed. DFT calculations indicate that the cyclometalation involving complexes with not very bulky NHCs ligands occurs via cis intermediates. Cyclometalation products bearing tert-butyl-substituted NHCs are kinetically and thermodynamically favored over those involving isopropyl groups.