Synthesis and characterization of Pd(IMe)2, and its reactivity by C–S oxidative addition of DMSO

“…A search on all currently known X-ray crystal structures of d 10 -[M(NHC) 2 ] complexes reveal that the dihedral angles between the NHC nitrogen and NHC carbene carbon atoms increases for bulky substituents. 5a , 6 , 7 , 11 Calculations on [M(H 2 Im) 2 ] presented earlier 12 predict a D 2d type structure also for sterically less demanding NHCs. However, calculations on [M(iPr 2 Im) 2 ] (M = Ni, Pd, Pt) performed at BP86/def2-TZVPP level (see ESI † ) reveal a shallow potential for the rotation of the NHC ligands and differences in energy between a D 2d and D 2h type structure below 5 kJ mol –1 in favor of a staggered alignment.…”

“… 5 Investigations on isolated palladium(0) and especially on platinum(0) complexes bearing two NHC ligands are scarce and mainly involve NHCs with sterically demanding nitrogen substituents. 6 , 7 For palladium, two major pathways for the synthesis of complexes [M(NHC) 2 ] have been established: (i) ligand substitution at [Pd(P{ o Tol} 3 ) 2 ] ( o Tol = 2-CH 3 –C 6 H 4 ) developed by Herrmann et al 6 a and (ii) ligand substitution at dimeric [(Pd(η 3 -C 4 H 7 )Cl) 2 ] in the presence of sodium dimethylmalonate, developed by Caddick and Cloke et al 6 b The latter procedure does not require the unappealing synthesis of the [Pd(P{ o Tol} 3 ) 2 ] precursor, 8 but the stoichiometry has to be controlled carefully due to equilibration in solution, since NHC dissociation from palladium seems to be more facile than generally envisioned. 6 c However, using these methods, complexes such as [Pd(Dipp 2 Im) 2 ] (Dipp = 2,6-diisopropyl-phenyl), [Pd(Mes 2 Im) 2 ] (Mes = 2,4,6-trimethyl-phenyl), [Pd( t Bu 2 Im) 2 ], [Pd(Ad 2 Im) 2 ] (Ad = adamantyl) and of other NHCs with sterically demanding substituents at nitrogen have been prepared.…”

“…6 c However, using these methods, complexes such as [Pd(Dipp 2 Im) 2 ] (Dipp = 2,6-diisopropyl-phenyl), [Pd(Mes 2 Im) 2 ] (Mes = 2,4,6-trimethyl-phenyl), [Pd( t Bu 2 Im) 2 ], [Pd(Ad 2 Im) 2 ] (Ad = adamantyl) and of other NHCs with sterically demanding substituents at nitrogen have been prepared. 6 Furthermore, synthesis of [Pd(Me 2 Im) 2 ] via potassium reduction of [Pd(Me 2 Im) 2 Cl 2 ] and the characterization of this complex including X-ray analysis has been described lately. 6 j In course of these studies, it turned out that complexes of the type [Pd(NHC) 2 ] are extremely air sensitive and form isolable peroxo or peroxocarbonate complexes.…”

Bite-angle bending as a key for understanding group-10 metal reactivity of d¹⁰-[M(NHC)₂] complexes with sterically modest NHC ligands

“…A search on all currently known X-ray crystal structures of d 10 -[M(NHC) 2 ] complexes reveal that the dihedral angles between the NHC nitrogen and NHC carbene carbon atoms increases for bulky substituents. 5a , 6 , 7 , 11 Calculations on [M(H 2 Im) 2 ] presented earlier 12 predict a D 2d type structure also for sterically less demanding NHCs. However, calculations on [M(iPr 2 Im) 2 ] (M = Ni, Pd, Pt) performed at BP86/def2-TZVPP level (see ESI † ) reveal a shallow potential for the rotation of the NHC ligands and differences in energy between a D 2d and D 2h type structure below 5 kJ mol –1 in favor of a staggered alignment.…”

“… 5 Investigations on isolated palladium(0) and especially on platinum(0) complexes bearing two NHC ligands are scarce and mainly involve NHCs with sterically demanding nitrogen substituents. 6 , 7 For palladium, two major pathways for the synthesis of complexes [M(NHC) 2 ] have been established: (i) ligand substitution at [Pd(P{ o Tol} 3 ) 2 ] ( o Tol = 2-CH 3 –C 6 H 4 ) developed by Herrmann et al 6 a and (ii) ligand substitution at dimeric [(Pd(η 3 -C 4 H 7 )Cl) 2 ] in the presence of sodium dimethylmalonate, developed by Caddick and Cloke et al 6 b The latter procedure does not require the unappealing synthesis of the [Pd(P{ o Tol} 3 ) 2 ] precursor, 8 but the stoichiometry has to be controlled carefully due to equilibration in solution, since NHC dissociation from palladium seems to be more facile than generally envisioned. 6 c However, using these methods, complexes such as [Pd(Dipp 2 Im) 2 ] (Dipp = 2,6-diisopropyl-phenyl), [Pd(Mes 2 Im) 2 ] (Mes = 2,4,6-trimethyl-phenyl), [Pd( t Bu 2 Im) 2 ], [Pd(Ad 2 Im) 2 ] (Ad = adamantyl) and of other NHCs with sterically demanding substituents at nitrogen have been prepared.…”

“…6 c However, using these methods, complexes such as [Pd(Dipp 2 Im) 2 ] (Dipp = 2,6-diisopropyl-phenyl), [Pd(Mes 2 Im) 2 ] (Mes = 2,4,6-trimethyl-phenyl), [Pd( t Bu 2 Im) 2 ], [Pd(Ad 2 Im) 2 ] (Ad = adamantyl) and of other NHCs with sterically demanding substituents at nitrogen have been prepared. 6 Furthermore, synthesis of [Pd(Me 2 Im) 2 ] via potassium reduction of [Pd(Me 2 Im) 2 Cl 2 ] and the characterization of this complex including X-ray analysis has been described lately. 6 j In course of these studies, it turned out that complexes of the type [Pd(NHC) 2 ] are extremely air sensitive and form isolable peroxo or peroxocarbonate complexes.…”

Bite-angle bending as a key for understanding group-10 metal reactivity of d¹⁰-[M(NHC)₂] complexes with sterically modest NHC ligands

“…Combustion CHN analyses were made on aP erkin-Elmer 2400 CHN microanalyzer.U nless specified otherwise, all compounds used were purchased from commercial sources and used without further purification. Compounds 3, [44] 8, [45] [PdCl 2 (IDM) 2 ], [46] [PdCl 2 (AsPh 3 )(IDM)], [16b] 4, [47] PEPPSI, [48] trans-[Pd(C 6 F 5 )(Br)(PPh 3 ) 2 ], [49] trans-[Pd(C 6 H 4 CF 3 )(I)(PPh 3 ) 2 ], [50] trans-[Pd(C 6 H 4 CF 3 )(F)(PPh 3 ) 2 ], [51] [CuF 2 (bipy)]·3H 2 O( bipy = 2,2'-bipyridine), [52] ClÀSi(OEt) 3 , [53] and 1-[2-(diphenylphosphino)phenyl]-N,N-dimethylmethanamine [54] were made by methods reported in the literature. Particularly,anhydrous CuF 2 was purchased from Alfa Aesar,P h ÀSi(OEt) 3 was purchased from Aldrich, and (C 6 F 5 )Si(OEt) 3 from Fluorochem.…”

In Situ Generation of ArCu from CuF₂ Makes Coupling of Bulky Aryl Silanes Feasible and Highly Efficient

“…3,11 However, most of mono-ligated NHC palladium complexes contain bulky NHCs with relatively strongly bound anions such as acetate anions, or halide-or carboxylate-bridged palladium dimers are obtained. 17,18 Here, we report the preparation and full characterization of a mono-ligated palladium(II) complex supported by IMe (IMe = 1,3-dimethylimidazole-2-ylidene), triflate, and THF. 14 Therefore, the access to a mono-ligated NHC complex with weakly coordinating ligands is very limited.…”

A Highly Substitutable Palladium(II) Complex Stabilized by the Smallest Steric N‐Heterocyclic Carbene, IMe (IMe = 1,3‐Dimethylimidazole‐2‐ylidene)