Synthesis and structural study of neutral mononuclear and anionic binuclear 2,4,6-trifluorophenyl derivatives of palladium(II). Crystal structure of [P(CH2Ph)Ph3]2[(C6F3H2)2Pd(µ-SCN)(µ-NCS)Pd(C6F3H2)2]

Abstract

Arylation of K₂[PdCl₄] with Mg(C₆F₃H₂)Br in tetrahydrofuran–dioxane and subsequent addition of either benzonitrile or dibenzylideneacetone (dba) in diethyl ether leads to the formation of labile complexes [Pd(C₆F₃H₂)₂(PhCN)₂] or [Pd(C₆F₃H₂)₂(dba)] respectively. A number of [Pd(C₆F₃H₂)₂L₂]- type complexes [L = PEt₃, AsPh₃, P(OMe)₃, P(OEt)₃, P(OPh)₃, L₂= cyclo-octa-1,5-diene or NNN′N′-tetramethylethylenediamine] have been prepared by addition of the corresponding neutral ligand to chloroform solutions of [Pd(C₆F₃H₂)₂(PhCN)₂]. Proton, ¹⁹F, and ³¹P n.m.r. data for all the square-planar palladium(II) complexes have been collected and ³¹P-{¹H} spectra show that they are the cis isomers. The complex [Pd(C₆F₃H₂)₂(PhCN)₂] reacts with NMe₄Cl to give [NMe₄]₂[Pd₂(C₆F₃H₂)₄(µ-Cl)₂] and treatment of this with the appropriate alkali-metal salt (KBr, NaI, or KSCN) leads to [NMe₄]₂[Pd₂(C₆F₃H₂)₄(µ-X)₂](X = Br, I, or SCN). The behaviour of the binuclear anions in the solvents acetone and dimethyl sulphoxide has been studied by ¹⁹F n.m.r. spectroscopy. The crystal structure of [P(CH₂Ph)Ph₃]₂[(C₆F₃H₂)₂Pd(µ-SCN)-(µ-NCS)Pd(C₆F₃H₂)₂] has been solved and refined to R= 0.040 based on 3 384 observed reflections, confirming the existence of centrosymmetric binuclear anions where the Pd atoms have square-planar co-ordination [Pd-C 2.02(1) and 1.99(1), Pd–S 2.387(5), and Pd–N 2.07(1)Å].