Counterions control whether self-assembly leads to formation of stable and well-defined unilamellar nanotubes or nanoribbons and nanorods

Dong Shi; Christian Schwall; George Sfintes; Erling Thyrhaug; Peter Hammershøj; Marite Cárdenas; Jens B Simonsen; Bo W Laursen

doi:10.1002/chem.201402523

Counterions control whether self-assembly leads to formation of stable and well-defined unilamellar nanotubes or nanoribbons and nanorods

Chemistry. 2014 Jun 2;20(23):6853-6. doi: 10.1002/chem.201402523. Epub 2014 May 7.

Authors

Dong Shi¹, Christian Schwall, George Sfintes, Erling Thyrhaug, Peter Hammershøj, Marite Cárdenas, Jens B Simonsen, Bo W Laursen

Affiliation

¹ Nano-Science Center & Department of Chemistry, University of Copenhagen, Universitetsparken 5, 2100 Copenhagen (Denmark).

PMID: 24806100
DOI: 10.1002/chem.201402523

Abstract

Self-assembly of the amphiphilic π-conjugated carbenium ion ATOTA-1(+) in aqueous solution selectively leads to discrete and highly stable nanotubes or nanoribbons and nanorods, depending on the nature of the counterion (Cl(-) vs. PF6(-), respectively). The nanotubes formed by the Cl(-) salt illustrate an exceptional example of a structural well-defined (29±2 nm in outer diameter) unilamellar tubular morphology featuring π-conjugated functionality and high stability and flexibility, in aqueous solution.

Keywords: amphiphiles; nanostructures; nanotubes; self-assembly; triangulenium salts; π-conjugation.