A Family of Hexacopper Phenylsilsesquioxane/Acetate Complexes: Synthesis, Solvent-Controlled Cage Structures, and Catalytic Activity.
Anna Y ZuevaAlexey N BilyachenkoIvan S ArteevVictor N KhrustalevPavel V DorovatovskiiLidia S Shul'pinaNikolay S IkonnikovEvgenii I GutsulKarim G RahimovElena S ShubinaNuno Reis ConceiçãoKamran T MahmudovM Fátima C Guedes da SilvaArmando J L PombeiroPublished in: Chemistry (Weinheim an der Bergstrasse, Germany) (2024)
Convenient self-assembly synthesis of copper(II) complexes via double (phenylsilsesquioxane and acetate) ligation allows to isolate a family of impressive sandwich-like cage compounds. An intriguing feature of these complexes is the difference in the structure of a pair of silsesquioxane ligands despite identical (Cu 6 ) nuclearity and number (four) of acetate fragments. Formation of particular combination of silsesquioxane ligands (cyclic/cyclic vs condensed/condensed vs cyclic/condensed) was found to be dependent on the synthesis/crystallization media. A combination of Si 4 -cyclic and Si 6 -condensed silsesquioxane ligands is a brand new feature of cage metallasilsesquioxanes. A representative Cu 6 -complex (4) (with cyclic silsesquioxanes) exhibited high catalytic activity in the oxidation of alkanes and alcohols with peroxides. Maximum yield of the products of cyclohexane oxidation attained 30 %. The compound 4 was also tested as catalyst in the Baeyer-Villiger oxidation of cyclohexanone by m-chloroperoxybenzoic acid: maximum yields of 88 % and 100 % of ϵ-caprolactone were achieved upon conventional heating at 50 °C for 4 h and MW irradiation at 70 or 80 °C during 30 min, respectively. It was also possible to obtain the lactone (up to 16 % yield) directly from the cyclohexane via a tandem oxidation/Baeyer-Villiger oxidation reaction using the same oxidant.