Dispersion-Corrected Relativistic Density Functional Theory (DFT) Calculations of Structure and ¹¹⁹Sn Mössbauer Parameters for M≡SnR Bonding in Filippou’s Stannylidyne Complexes of Molybdenum and Tungsten

Abstract: (119)Sn Mössbauer isomer shift (IS) and quadrupole splitting (ΔEQ) for M≡SnR bonding in metal-stannylidyne complexes trans-[Cl(PMe3)4Mo≡Sn-R] (1), trans-[Cl(PMe3)4W≡Sn-R] (2), trans-[Cl(dppe)2Mo≡Sn-R] (3), trans-[Cl(dppe)2W≡Sn-R] (4), [(dppe)2Mo≡Sn-R](+) (5), [(dppe)2W≡Sn-R](+) (6) (R = C6H3-2,6-Mes2) have been investigated for the first time. Calculations of optimized structures and (119)Sn Mössbauer parameters were carried out at the DFT/TPSS-D3(BJ)/TZVPP/ZORA level of theory. The calculated geometry paramet… Show more

“…We envisaged to develop a new synthetic approach to silylidyne complexes using silyliumylidenes based on the following conception. Quantum chemical bonding analyses of the presently known heavier tetrylidyne complexes [L n ME–R] (E = Si–Pb, R = organyl group) revealed that the M–E bonds between the negatively charged metal M and the positively charged tetrel atom E are quite polar and composed of a σ bond, polarized toward the tetrel atom E, and two π bonds, which are polarized toward the metal center M . The ME–R bonding can thus be reasonably well described in terms of the Dewar–Chatt–Duncanson model to comprise a σ-donation from the tetryliumylidene [ER] + ligand to the anionic transition-metal fragment [L n M] − and two [L n M] − → [ER] + π-backdonations, similar to the MC bonding in Fischer-type carbyne complexes .…”

Metal–Silicon Triple Bonds: Access to [Si(η⁵-C₅Me₅)]⁺ from SiX₂(NHC) and its Conversion to the Silylidyne Complex [Tp^Me(CO)₂MoSi(η³-C₅Me₅)] (Tp^Me = κ³-N,N′,N″-hydridotris(3,5-dimethyl-1-pyrazolyl)borate)

“…We envisaged to develop a new synthetic approach to silylidyne complexes using silyliumylidenes based on the following conception. Quantum chemical bonding analyses of the presently known heavier tetrylidyne complexes [L n ME–R] (E = Si–Pb, R = organyl group) revealed that the M–E bonds between the negatively charged metal M and the positively charged tetrel atom E are quite polar and composed of a σ bond, polarized toward the tetrel atom E, and two π bonds, which are polarized toward the metal center M . The ME–R bonding can thus be reasonably well described in terms of the Dewar–Chatt–Duncanson model to comprise a σ-donation from the tetryliumylidene [ER] + ligand to the anionic transition-metal fragment [L n M] − and two [L n M] − → [ER] + π-backdonations, similar to the MC bonding in Fischer-type carbyne complexes .…”

Metal–Silicon Triple Bonds: Access to [Si(η⁵-C₅Me₅)]⁺ from SiX₂(NHC) and its Conversion to the Silylidyne Complex [Tp^Me(CO)₂MoSi(η³-C₅Me₅)] (Tp^Me = κ³-N,N′,N″-hydridotris(3,5-dimethyl-1-pyrazolyl)borate)

Nature of C → E and M E bonds in [Cp(CO)2M E ← NHC(R)]+ (E = Si, Ge, Sn, pb; M: Cr, Mo, w; R = H, F, Cl, Br, CH3, Ph, dipp, Si(CH3)3) complexes