The thermodynamics of the self-assembly of covalently linked oligomeric naphthalenediimides into helical organic nanotubes

Koujiro Tambara; John Carl Olsen; David E. Hansen; G. Dan Pantoş

Journal ArticleOPEN ACCESS

The thermodynamics of the self-assembly of covalently linked oligomeric naphthalenediimides into helical organic nanotubes

Organic and Biomolecular Chemistry (2014) 12(4) 607-614

DOI: 10.1039/c3ob41761a

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Abstract

The mechanism and thermodynamic functions of the self-assembly of a family of covalently linked oligomeric naphthalenediimides (NDIs) were investigated through variable-temperature NMR and CD studies. The NDIs were shown to self-assemble into helical supramolecular nanotubes via an isodesmic polymerisation mechanism, and regardless of the oligomer length a surprising entropy-enthalpy compensation was observed. © The Royal Society of Chemistry.

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Tambara, K., Olsen, J. C., Hansen, D. E., & Pantoş, G. D. (2014). The thermodynamics of the self-assembly of covalently linked oligomeric naphthalenediimides into helical organic nanotubes. Organic and Biomolecular Chemistry, 12(4), 607–614. https://doi.org/10.1039/c3ob41761a

The thermodynamics of the self-assembly of covalently linked oligomeric naphthalenediimides into helical organic nanotubes

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