| Literature DB >> 25950426 |
Alexey N Bilyachenko1, Marina S Dronova2, Alexey I Yalymov2, Frédéric Lamaty3, Xavier Bantreil4, Jean Martinez4, Christelle Bizet4, Lidia S Shul'pina2, Alexander A Korlyukov5,6, Dmitry E Arkhipov2, Mikhail M Levitsky7, Elena S Shubina2, Alexander M Kirillov8, Georgiy B Shul'pin9.
Abstract
The transmetalation of bimetallic copper-sodium silsesquioxane cages, namely, [(PhSiO1.5 )10 (CuO)2 (NaO0.5 )2 ] ("Cooling Tower"; 1), [(PhSiO1.5 )12 (CuO)4 (NaO0.5 )4 ] ("Globule"; 2), and [(PhSiO1.5 )6 (CuO)4 (NaO0.5 )4 (PhSiO1.5 )6 ] ("Sandwich"; 3), resulted in the generation of three types of hexanuclear cylinder-like copper silsesqui- oxanes, [(PhSiO1.5 )12 (CuO)6 (C4 H9 OH)2 (C2 H5 OH)6 ] (4), [(PhSiO1.5 )12 (CuO)6 (C4 H8 O2 )4 (PhCN)2 (MeOH)4 ] (5), and [(PhSiO1.5 )12 (CuO)6 (NaCl)(C4 H8 O2 )12 (H2 O)2 ] (6). The products show a prominent "solvating system-structure" dependency, as determined by X-ray diffraction. Topological analysis of cages 1-6 was also performed. In addition, DFT theory was used to examine the structures of the Cooling Tower and Cylinder compounds, as well as the spin density distributions. Compounds 1, 2, and 5 were applied as catalysts for the direct oxidation of alcohols and amines into the corresponding amides. Compound 6 is an excellent catalyst in the oxidation reactions of benzene and alcohols.Entities:
Keywords: amidation; cage compounds; density functional calculations; metallacycles; oxidation
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Year: 2015 PMID: 25950426 DOI: 10.1002/chem.201500791
Source DB: PubMed Journal: Chemistry ISSN: 0947-6539 Impact factor: 5.236