Supramolecular switching between flat sheets and helical tubules triggered by coordination interaction

Suyong Shin; Sunhee Lim; Yongju Kim; Taehoon Kim; Tae Lim Choi; Myongsoo Lee

doi:10.1021/ja400160j

Supramolecular switching between flat sheets and helical tubules triggered by coordination interaction

Suyong Shin, Sunhee Lim, Yongju Kim, Taehoon Kim, Tae Lim Choi, Myongsoo Lee

Research output: Contribution to journal › Article › peer-review

86 Citations (Scopus)

Abstract

Here we report the spontaneous formation of switchable sheets in aqueous solution, which is based on bent-shaped aromatic amphiphiles containing m-pyridine units at the terminals and a hydrophilic dendron at the apex. The aromatic segments self-assemble into flat sheets consisting of a zigzag conformation through π-π stacking interactions. Notably, the sheets reversibly transform into helical tubules at higher concentration and into discrete dimeric macrocycles at a lower concentration in response to Ag(I) ions through reversible coordination interactions between the pyridine units of the aromatic segments and the Ag(I) ions. While maintaining the coordination bonding interactions, the helical tubules reversibly transform into the dimeric macrocycles in response to the variation in concentration.

Original language	English
Pages (from-to)	2156-2159
Number of pages	4
Journal	Journal of the American Chemical Society
Volume	135
Issue number	6
DOIs	https://doi.org/10.1021/ja400160j
Publication status	Published - 2013 Feb 13
Externally published	Yes

ASJC Scopus subject areas

Catalysis
Chemistry(all)
Biochemistry
Colloid and Surface Chemistry

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10.1021/ja400160j

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abstract = "Here we report the spontaneous formation of switchable sheets in aqueous solution, which is based on bent-shaped aromatic amphiphiles containing m-pyridine units at the terminals and a hydrophilic dendron at the apex. The aromatic segments self-assemble into flat sheets consisting of a zigzag conformation through π-π stacking interactions. Notably, the sheets reversibly transform into helical tubules at higher concentration and into discrete dimeric macrocycles at a lower concentration in response to Ag(I) ions through reversible coordination interactions between the pyridine units of the aromatic segments and the Ag(I) ions. While maintaining the coordination bonding interactions, the helical tubules reversibly transform into the dimeric macrocycles in response to the variation in concentration.",

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T1 - Supramolecular switching between flat sheets and helical tubules triggered by coordination interaction

AU - Shin, Suyong

AU - Lim, Sunhee

AU - Kim, Yongju

AU - Kim, Taehoon

AU - Choi, Tae Lim

AU - Lee, Myongsoo

PY - 2013/2/13

Y1 - 2013/2/13

N2 - Here we report the spontaneous formation of switchable sheets in aqueous solution, which is based on bent-shaped aromatic amphiphiles containing m-pyridine units at the terminals and a hydrophilic dendron at the apex. The aromatic segments self-assemble into flat sheets consisting of a zigzag conformation through π-π stacking interactions. Notably, the sheets reversibly transform into helical tubules at higher concentration and into discrete dimeric macrocycles at a lower concentration in response to Ag(I) ions through reversible coordination interactions between the pyridine units of the aromatic segments and the Ag(I) ions. While maintaining the coordination bonding interactions, the helical tubules reversibly transform into the dimeric macrocycles in response to the variation in concentration.

AB - Here we report the spontaneous formation of switchable sheets in aqueous solution, which is based on bent-shaped aromatic amphiphiles containing m-pyridine units at the terminals and a hydrophilic dendron at the apex. The aromatic segments self-assemble into flat sheets consisting of a zigzag conformation through π-π stacking interactions. Notably, the sheets reversibly transform into helical tubules at higher concentration and into discrete dimeric macrocycles at a lower concentration in response to Ag(I) ions through reversible coordination interactions between the pyridine units of the aromatic segments and the Ag(I) ions. While maintaining the coordination bonding interactions, the helical tubules reversibly transform into the dimeric macrocycles in response to the variation in concentration.

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Supramolecular switching between flat sheets and helical tubules triggered by coordination interaction

Abstract

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