Changing Liquid Crystal Helical Pitch with a Reversible Rotaxane Switch

Sujun Chen; Nathalie Katsonis; David A. Leigh; Manee Patanapongpibul; Alexander Ryabchun; Liang Zhang

doi:10.1002/anie.202401291

Changing Liquid Crystal Helical Pitch with a Reversible Rotaxane Switch

Sujun Chen, Nathalie Katsonis^*, David A. Leigh^*, Manee Patanapongpibul, Alexander Ryabchun, Liang Zhang^*

^*Corresponding author for this work

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

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Abstract

The transmission of chiral information between the molecular, meso and microscopic scales is a facet of biology that remains challenging to understand mechanistically and to mimic with artificial systems. Here we demonstrate that the dynamic change in the expression of the chirality of a rotaxane can be transduced into a change in pitch of a soft matter system. Shuttling the position of the macrocycle from far-away-from to close-to a point-chiral center on the rotaxane axle changes the expression of the chiral information that is transmitted across length scales; from nanometer scale constitutional chirality that affects the conformation of the macrocycle, to the centimeter scale chirality of the liquid crystal phase, significantly changing the pitch length of the chiral nematic structure.

Original language	English
Article number	e202401291
Number of pages	5
Journal	Angewandte Chemie - International Edition
Volume	63
Issue number	18
Early online date	26-Mar-2024
DOIs	https://doi.org/10.1002/anie.202401291
Publication status	Published - 24-Apr-2024

Keywords

Rotaxanes
Soft Matter
Stereochemistry
Mechanical Bond

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abstract = "The transmission of chiral information between the molecular, meso and microscopic scales is a facet of biology that remains challenging to understand mechanistically and to mimic with artificial systems. Here we demonstrate that the dynamic change in the expression of the chirality of a rotaxane can be transduced into a change in pitch of a soft matter system. Shuttling the position of the macrocycle from far-away-from to close-to a point-chiral center on the rotaxane axle changes the expression of the chiral information that is transmitted across length scales; from nanometer scale constitutional chirality that affects the conformation of the macrocycle, to the centimeter scale chirality of the liquid crystal phase, significantly changing the pitch length of the chiral nematic structure.",

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AU - Ryabchun, Alexander

AU - Zhang, Liang

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AB - The transmission of chiral information between the molecular, meso and microscopic scales is a facet of biology that remains challenging to understand mechanistically and to mimic with artificial systems. Here we demonstrate that the dynamic change in the expression of the chirality of a rotaxane can be transduced into a change in pitch of a soft matter system. Shuttling the position of the macrocycle from far-away-from to close-to a point-chiral center on the rotaxane axle changes the expression of the chiral information that is transmitted across length scales; from nanometer scale constitutional chirality that affects the conformation of the macrocycle, to the centimeter scale chirality of the liquid crystal phase, significantly changing the pitch length of the chiral nematic structure.

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KW - Mechanical Bond

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Changing Liquid Crystal Helical Pitch with a Reversible Rotaxane Switch

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