Reference of 37366-09-9, An article , which mentions 37366-09-9, molecular formula is C12H12Cl4Ru2. The compound – Dichloro(benzene)ruthenium(II) dimer played an important role in people’s production and life.
Role of the Trichlorostannyl Ligand in Tin?Ruthenium Arene Complexes: Experimental and Computational Studies
A set of neutral and ionic ruthenium arene trichlorostannyl complexes are reported herein. The tin(II) compounds L1SnCl {1; L1 = [2-(CH2NEt2)-4,6-(tBu)2C6H2]?} and [L2SnCl][SnCl3] {2; L2 = 2,6-[(CH3)C=N(C6H3-2,6-iPr2)2]C5H3N} showed a rather different reactivity towards the ruthenium complex [(eta6-cymene)RuCl]2(eta-Cl)2. As a consequence, the neutral complex [Ru(eta6-cymene)(L1SnCl)Cl2] (4) and the ionic compound [L2SnCl][Ru(eta6-cymene)(SnCl3)2Cl] (8) were isolated. The insertion reaction of 4 with SnCl2 provided the neutral trimetallic ruthenium complex [Ru(eta6-cymene)(L1SnCl)(SnCl3)Cl] (6). Analogous ruthenium complexes [Ru(eta6-cymene)(L3PPh2)Cl2] (5) and [Ru(eta6-cymene)(L3PPh2)(SnCl3)Cl] (7) containing the phosphane ligand L3PPh2 {3; L3 = [2,6-iPr2-(C6H3)NH]?} were also prepared to evaluate the donor?acceptor strength of the tin(II)- and phosphorus-containing ligands. The structural characterization and DFT calculations of the above-mentioned complexes suggest a strong influence of the [SnCl3]? moiety on the Ru?E interaction (E = Sn, P). The influence of the trichlorostannyl ligand on the Ru?E interaction in the complexes 4?7 was further evaluated by means of a distortion/interaction analysis.
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Highly efficient and robust molecular ruthenium catalysts for water oxidation,
Catalysts | Special Issue : Ruthenium Catalysts – MDPI