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 Cardenas Gomez; Jens Bæk Simonsen; Bo Wegge 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

Dong Shi, Christian Schwall, George Sfintes, Erling Thyrhaug, Peter Hammershøj, Marite Cardenas Gomez, Jens Bæk Simonsen, Bo Wegge Laursen

Department of Chemistry

15 Citations (Scopus)

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.

Original language	English
Journal	Chemistry: A European Journal
Volume	20
Issue number	23
Pages (from-to)	6853-6856
Number of pages	4
ISSN	0947-6539
DOIs	https://doi.org/10.1002/chem.201402523
Publication status	Published - 2 Jun 2014

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10.1002/chem.201402523

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

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.",

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AU - Shi, Dong

AU - Schwall, Christian

AU - Sfintes, George

AU - Thyrhaug, Erling

AU - Hammershøj, Peter

AU - Cardenas Gomez, Marite

AU - Simonsen, Jens Bæk

AU - Laursen, Bo Wegge

PY - 2014/6/2

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N2 - 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.

AB - 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.

U2 - 10.1002/chem.201402523

DO - 10.1002/chem.201402523

M3 - Journal article

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SN - 0947-6539

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JO - Chemistry: A European Journal

JF - Chemistry: A European Journal

IS - 23

ER -

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

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