A new porous material based on the first supramolecular cucurbituril-based nanosponge was synthesized by the functionalization of cucurbit[6]uril with twelve 1-(2-bromoethyl)-3-methyl-1H-imidazol-3-ium arms. The porous structure and the high adsorption capacity were demonstrated through surface area measurements and carbon dioxide adsorption. The new supramolecular sponge showed attractive properties such as (i) a highly porous structure that allowed CO2capture, (ii) the possibility to reuse the adsorbed CO2for organic synthesis, and (iii) an exciting thermal stability up to around 800 °C, with the potential use of this material in high temperature reactions. Finally, the reuse of CO2was successfully investigated in the carboxylation reaction of phenylacetylene
Nanosponges based on self-assembled starfish-shaped cucurbit[6]urils functionalized with imidazolium arms
Patamia, VincenzoPrimo
;Gentile, Davide;Fiorenza, Roberto;Muccilli, Vera;Mineo, Placido G.;Scirè, Salvatore;Rescifina, Antonio
2021-01-01
Abstract
A new porous material based on the first supramolecular cucurbituril-based nanosponge was synthesized by the functionalization of cucurbit[6]uril with twelve 1-(2-bromoethyl)-3-methyl-1H-imidazol-3-ium arms. The porous structure and the high adsorption capacity were demonstrated through surface area measurements and carbon dioxide adsorption. The new supramolecular sponge showed attractive properties such as (i) a highly porous structure that allowed CO2capture, (ii) the possibility to reuse the adsorbed CO2for organic synthesis, and (iii) an exciting thermal stability up to around 800 °C, with the potential use of this material in high temperature reactions. Finally, the reuse of CO2was successfully investigated in the carboxylation reaction of phenylacetylene| File | Dimensione | Formato | |
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Nanosponges based on self-assembled starfish-shaped cucurbit[6]urils functionalized with imidazolium arms.pdf
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