Chemistry is traditionally divided into organic and inorganic chemistry. The former is the study of compounds containing at least one carbon-hydrogen bonds. 61337-89-1, Name is 2-(4-Methyl-2-phenyl-1-piperazinyl)-3-pyridinemethanol, molecular formula is C17H21N3O, belongs to pyridine-derivatives compound, is a common compound. In a patnet, author is Pototskiy, Roman A., once mentioned the new application about 61337-89-1, Product Details of 61337-89-1.
Synthesis and Reactivity of Heptamethylcyclohexadienyl Rhodium(III) Complexes
We report the synthesis and reactivity of the half-sandwich rhodium(III) complexes with the fully methylated cyclohexadienyl ligand C6Me7, which is analogous to the classical Cp*. The starting complex [(C6Me7)RhCl2](2) (4) was obtained in high yield (92%) by the reaction of [(cyclooctene)(2)RhCl](2) with the readily available 6-methylenehexamethylcyclohexadiene-1,4 (C6Me6=CH2) followed by addition of HCI. Reactions of complex 4 with common two-electron ligands L gave the expected adducts (C6Me7)RhCl2L (L = pyridine, P(OEt)(3), PPh3) in high yields (80-90%). At the same time, the interaction of 4 with the stronger ligand (BuNC)-Bu-t led to the replacement of the C6Me7 ligand. The cationic complex [(C6Me7)Rh(dppe)Cl]PF6 and the dicationic complex [(C6Me7)Rh(C6Me6)](BF4)(2) were obtained by abstraction of chlorides from 4 with TlPF6 or AgBF4 in the presence of the corresponding ligands. The reaction of 4 with 2-phenylpyridine in the presence of CsOAc proceeded via CH activation and gave the cyclometalated product (C6Me7)Rh(C6H4-Py)Cl in 85% yield. Accordingly, the catalytic reaction of 2-phenylpyridine with 3-hexyne in the presence of 4 (5 mol %) gave the 9,10-diethyl-8a-azaphenanthrene cation in 61% yield. However, the catalytic efficientcy of 4 was lower than that of the classical catalyst [Cp*RhCl2](2), possibly because the displacement of the cyclohexadienyl ligand interrupted the catalytic cycle. The DFT calculations suggested that the electron-donating ability of cyclic pi ligands in the rhodium complexes (CnRn)RhCl2CO decreases in the order CnRn, = C5Me5 > C6Me7 > C5H4OMe approximate to C5Me4CF3 > C5Me3(COOMe)(2) approximate to C5H4Me > C5H5 > C5H4F approximate to C5H4COOMe > C(5)a(4)CF(3).
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Reference:
Pyridine – Wikipedia,
,Pyridine | C5H5N – PubChem