36733-05-8Relevant academic research and scientific papers
The formation of dinuclear trichloro-bridged and mononuclear ruthenium complexes from the reactions of dichlorotris(p-tolylphosphine)ruthenium(II) with diazabutadiene ligands
Tay, Meng Guan,Chia, Ying Ying,Kuan, Suzie Hui Chin,Phan, Tze Pei
, (2018)
Ru(II) complexes with diazabutadiene (R-DAB) ligands have been prepared. The reaction of RuCl3·nH2O with P(p-tolyl)3 gave a [RuCl2{P(p-tolyl)3}] precursor, whose reactions with R-DAB in toluene gave d
Mechanistic study on dehydrogenation of methanol with [RuCl2(PR3)3]-type catalyst in homogeneous solutions
Yang, Li-Chang,Ishida, Takashi,Yamakawa, Tetsu,Shinoda, Sumio
, p. 87 - 93 (2008/10/09)
Catalytic dehydrogenation of methanol has been investigated in homogeneous solutions with a series of Ru(II) complexes, [RuCl2(P(p-C6H4X)3)3] (X = H (1), Me (2), F (3), OMe (4)) and [RuCl2(PMePh2)3] (5). In the gas phase, hydrogen was formed selectively ( > 99.5%), and formaldehyde, methylal (formaldehyde dimethyl acetal) and methyl formate were found in the liquid phase with satisfactory stoichiometry to the formed hydrogen. The reaction was retarded by the extra addition of free phosphine, suggesting the presence of pre-equilibrium dissociation of phosphine ligand. Kinetic analyses from this viewpoint explained well the dependence of rate on the concentration of catalyst (saturation curve). The order of evaluated pre-equilibrium constant (1 = 2 > 5) is in accord with the general idea that the dissociation of phosphine ligand is controlled principally by steric buik of ligands. The order of rate (3 > 1 > 2 > 4) for 1-4, possessing the same cone angle of phosphine ligand, correlated clearly with basicity of phosphines. The results are interpreted in terms of the mechanism of rate-determining β-hydrogen abstraction the Ru-OCH3 intermediate.
