One step synthesis of calix[4]arene biscrowns, with a rigid cone structure and alkyl or phenyl groups at the 'upper rim', has been performed. The binding ability of these rigidified cone calix[4]arenes 1-4, 13 has been evaluated, in apolar organic media, towards neutral organic molecules and ammonium cation salts. Comparison with more flexible analogues 5, 6, 11 shows that only rigid cone calix[4]arenes are able to complex organic species. The association constants strongly depend on the type of substituents present at the upper rim. The X-ray crystal structure of the endo complex p-cyclohexyl-25,26-27,28-biscrown-3-calix[4]arene 3 with CH3NO2 has been resolved.
Rigid Cone Calix[4]arenes as pi-Donor Systems: Complexation of Organic Molecules and Ammonium Ions in Organic Media / Arduini, Arturo; W. M., Mcgregor; D., Paganuzzi; Pochini, Andrea; Secchi, Andrea; Ugozzoli, Franco; Ungaro, Rocco. - In: JOURNAL OF THE CHEMICAL SOCIETY-PERKIN TRANSACTIONS II. - ISSN 0300-9580. - 1996:(1996), pp. 839-846. [10.1039/p29960000839]
Rigid Cone Calix[4]arenes as pi-Donor Systems: Complexation of Organic Molecules and Ammonium Ions in Organic Media
ARDUINI, Arturo;POCHINI, Andrea;SECCHI, Andrea;UGOZZOLI, Franco;UNGARO, Rocco
1996-01-01
Abstract
One step synthesis of calix[4]arene biscrowns, with a rigid cone structure and alkyl or phenyl groups at the 'upper rim', has been performed. The binding ability of these rigidified cone calix[4]arenes 1-4, 13 has been evaluated, in apolar organic media, towards neutral organic molecules and ammonium cation salts. Comparison with more flexible analogues 5, 6, 11 shows that only rigid cone calix[4]arenes are able to complex organic species. The association constants strongly depend on the type of substituents present at the upper rim. The X-ray crystal structure of the endo complex p-cyclohexyl-25,26-27,28-biscrown-3-calix[4]arene 3 with CH3NO2 has been resolved.I documenti in IRIS sono protetti da copyright e tutti i diritti sono riservati, salvo diversa indicazione.
