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Unexpected Solvent-Dependent Self-Assembly of Alkali Metal Complexes of Calix[6]- mono -crown-4: Dinuclear Bowls, a Pseudo-Capsule, and a One-Dimensional Polymer.

Seulgi KimDong Hee LeeKi-Min ParkJong-Hwa JungShim Sung LeeIn Hyeok Park
Published in: Inorganic chemistry (2022)
1,4-Bridged calix[6]- mono -crown-4 (H 4 L ) capable of metal binding was employed, and the influence of solvent variations on the formation of alkali metal complexes ( 1 - 6 ) was investigated. In the crystal, the bowl-shaped H 4 L host contains one water molecule in a good-fit fashion via H-bonds. When the H 4 L host was reacted with alkali metal hydroxides (M = Na, K, Rb, and Cs) in chloroform/methanol (solvent A), anion-free dinuclear bowl-shaped complexes of type [M 2 (H 2 L )] were isolated regardless of the metal ions. In the dinuclear bowl complexes 1 - 4 , two metal ions (M1 and M2) show different binding behaviors: one (M1) locates inside the pocket like an "egg-in-nest", and the other (M2) positions above the M1 interacting with the calix rim. When chloroform/acetonitrile (solvent B) was used in potassium(I) complexation, interestingly, an elegant pseudo-capsule-type quadrunuclear complex 5 was isolated. In 5 , two dipotassium(I) bowls in a rim-to-rim arrangement are triply bridged by one water and two acetonitrile molecules like a magic glue. However, in dichloromethane/methanol (solvent C), cesium(I) yielded an infinite product 6 in which dicesium(I) bowls are linked by cation-π interactions, giving rise to a one-dimensional zigzag coordination polymer. Taken collectively, all products share a dinuclear bowl unit, some of which are further extended to the pseudo-capsule or polymeric array, depending on the solvents. The results suggest the solvent variation as a versatile engineering tool and present a perspective on the metallosupramolecules of calix[6]- mono -crowns with monomer, dimer (e.g., pseudo-capsule), and polymer topologies.
Keyphrases
  • ionic liquid
  • quantum dots
  • carbon dioxide