99299-50-0Relevant academic research and scientific papers
Synthesis, resolution, and chemistry of chiral octahedral complexes of the type fac-[RuX(CO)L(triphos)]X′ (L = tertiary phosphine, isocyanide; X = halide, alkyl; X′ = halide, PF6-; triphos = 1,1,1-tris((diphenylphosphino)methyl)ethane)
Hommeltoft, Sven I.,Cameron, Alan D.,Shackleton, Thomas A.,Fraser, Marie E.,Fortier, Suzanne,Baird, Michael C.
, p. 1380 - 1388 (2008/10/08)
Treatment of complexes of the type [RuR(CO)2(triphos)]+ (R = alkyl) with several isocyanides and tertiary phosphines in the presence of trimethylamine oxide leads to the formation of complexes of the type fac-[RuR(CO)L(triphos)]+, the ease of CO substitution being limited by the steric requirements (cone angles) in the cases of the phosphines. The new complexes are chiral, and resolution has been achieved in the case of [RuMe(CO)(t-BuNC)(triphos)]+, which has been isolated enantiomerically pure as the hexafluorophosphate and (R,R)-hydrogendibenzoyltartrate (HBDT) salts. The crystal structure of [RuMe-(CO)(t-BuNC)(triphos)][HDBT] (monoclinic space group P21; a = 19.356 (5) ?, b = 10.841 (3) ?, c = 15.262 (3) ?, β = 108.33 (2)°, Z = 2; structure refined to R = 0.032, Rw = 0.049) shows that the absolute configuration of the complex cation can be designated by the Sloan modification of the Cahn-Ingold-Prelog procedures as OC-6-43-A. Electrophilic cleavage reactions of the resolved methyl complex with HCl, Cl2, I2, and HgBr2 proceed cleanly and quantitatively to yield the corresponding haloruthenium complexes and CH4, MeCl, MeI, or MeHgCl, respectively. All reactions appear to be stereoselective, at least, but the halo products are configurationally labile and neither the extent of the stereoselectivity nor the absolute configurations can be determined. Attempts to determine the stereoselectivity by NMR spectroscopy utilizing chiral shift reagents were inconclusive. The second-order 13C{1H} NMR spectra of a series of chiral complexes [RuX(CO)(13CO)(triphos)]+ (X = alkyl, halide) in the carbonyl region are analyzed in detail, and reasonable suggestions concerning the absolute signs of 2J(P-C) (cis and trans) are made.
Oxidative addition reactions of dicarbonyl-[1,1,1-tris((diphenylphosphino)methyl)ethane]ruthenium(0). Elimination of ketene from an acetylmetal compound
Hommeltoft, Sven I.,Baird, Michael C.
, p. 190 - 195 (2008/10/08)
Oxidative addition reactions of the title compound (Ru(CO)2(triphos)) with halogens, anhydrous hydrogen chloride, and several alkyl halides yield the series of complexes [RuX(CO)2(triphos)]+ (X = halide), [RuH(CO)2(triphos)]+, and [RuR(CO)2(triphos)]+ (R = Me, Et, PhCH2, allyl). Most of the compounds appear to exhibit normal chemical properties but the hydride is surprisingly acidic, possibly because the hydride ligand is forced into an unusual (for it) coordination position, trans to a phosphorus atom, which would lie high in the trans influence series. While oxidative addition of acetyl chloride appears to give the acetyl complex [Ru(COMe)(CO)2(triphos)]+, the latter is unstable and eliminates ketene to form the above-mentioned hydride complex. The unusual instability of the acetyl complex is perhaps also to be attributed in part to the high trans influence and pronounced trans bond weakening properties of tertiary phosphines.
