A synthetic study to disclose the more appropriate manner by which two calix[6]arene units could be connected for the construction of an extended tubular structure was undertaken. As a result, a head-to-tail double calix[6]arene having the structure of an oriented nanotube that is about 2.6 nm long and 1.6 nm wide was prepared and characterized. This molecule is able to act as a wheel-type host and forms a supramolecular complex with an axle-type molecule, derived from 4,4'-bipyridinium (viologen), through very efficient self-assembly in solution. The properties of such a pseudorotaxane-type complex, which is stabilized by a combination of noncovalent interactions, were investigated in solution by UV/Vis absorption spectroscopy and voltammetric methods. These observations provide a clue about the location of the bipyridinium unit along the nanotube. In the solid state, the complex undergoes a further stage of self-assembly, thereby initiating extended oriented tubular structures. Crystallographic studies revealed that the positioning of the viologen dication in this asymmetric wheel is addressed by a complicated pattern of cooperative noncovalent intermolecular interactions that involve only one half of the host, whereas the remaining (more polar) half of the host is exploited to create long-range structural order that leads to a "secondary" structure of extended supramolecular channels that, in turn, self-assemble in the lattice, thus giving rise to a "tertiary" structure of parallel sandwiches of nanotubes.

Self-assembly of a double calix[6]arene pseudorotaxane in oriented channels / Arduini, Arturo; Credi, A; Faimani, G; Massera, Chiara; Pochini, Andrea; Secchi, Andrea; Semeraro, M; Silvi, S; Ugozzoli, Franco. - In: CHEMISTRY-A EUROPEAN JOURNAL. - ISSN 0947-6539. - 14(1):(2008), pp. 98-106. [10.1002/chem.200700748]

Self-assembly of a double calix[6]arene pseudorotaxane in oriented channels

ARDUINI, Arturo;MASSERA, Chiara;POCHINI, Andrea;SECCHI, Andrea;UGOZZOLI, Franco
2008-01-01

Abstract

A synthetic study to disclose the more appropriate manner by which two calix[6]arene units could be connected for the construction of an extended tubular structure was undertaken. As a result, a head-to-tail double calix[6]arene having the structure of an oriented nanotube that is about 2.6 nm long and 1.6 nm wide was prepared and characterized. This molecule is able to act as a wheel-type host and forms a supramolecular complex with an axle-type molecule, derived from 4,4'-bipyridinium (viologen), through very efficient self-assembly in solution. The properties of such a pseudorotaxane-type complex, which is stabilized by a combination of noncovalent interactions, were investigated in solution by UV/Vis absorption spectroscopy and voltammetric methods. These observations provide a clue about the location of the bipyridinium unit along the nanotube. In the solid state, the complex undergoes a further stage of self-assembly, thereby initiating extended oriented tubular structures. Crystallographic studies revealed that the positioning of the viologen dication in this asymmetric wheel is addressed by a complicated pattern of cooperative noncovalent intermolecular interactions that involve only one half of the host, whereas the remaining (more polar) half of the host is exploited to create long-range structural order that leads to a "secondary" structure of extended supramolecular channels that, in turn, self-assemble in the lattice, thus giving rise to a "tertiary" structure of parallel sandwiches of nanotubes.
2008
Self-assembly of a double calix[6]arene pseudorotaxane in oriented channels / Arduini, Arturo; Credi, A; Faimani, G; Massera, Chiara; Pochini, Andrea; Secchi, Andrea; Semeraro, M; Silvi, S; Ugozzoli, Franco. - In: CHEMISTRY-A EUROPEAN JOURNAL. - ISSN 0947-6539. - 14(1):(2008), pp. 98-106. [10.1002/chem.200700748]
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Utilizza questo identificativo per citare o creare un link a questo documento: https://hdl.handle.net/11381/1831707
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