Helicity inversion of supramolecular hydrogels induced by achiral substituents
Probing the supramolecular chirality of assemblies and controlling their handedness are closely related to the origin of chirality at the supramolecular level and the development of smart materials with desired handedness. However, it remains unclear how achiral residues covalently bonded to chiral...
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sg-ntu-dr.10356-1414482020-06-08T08:31:16Z Helicity inversion of supramolecular hydrogels induced by achiral substituents Liu, Guofeng Li, Xin Sheng, Jianhui Li, Pei-Zhou Ong, Wee Kong Phua, Fiona Soo Zeng Ågren, Hans Zhu, Liangliang Zhao, Yanli School of Materials Science and Engineering School of Physical and Mathematical Sciences Science::Chemistry Achiral Substituent Helicity Inversion Probing the supramolecular chirality of assemblies and controlling their handedness are closely related to the origin of chirality at the supramolecular level and the development of smart materials with desired handedness. However, it remains unclear how achiral residues covalently bonded to chiral amino acids can function in the chirality inversion of supramolecular assemblies. Herein, we report macroscopic chirality and dynamic manipulation of chiroptical activity of hydrogels self-assembled from phenylalanine derivatives, together with the inversion of their handedness achieved solely by exchanging achiral substituents between oligo(ethylene glycol) and carboxylic acid groups. This helicity inversion is mainly induced by distinct stacking mode of the self-assembled building blocks, as collectively confirmed by scanning electron microscopy, circular dichroism, crystallography, and molecular dynamics calculations. Through this straightforward approach, we were able to invert the handedness of helical assemblies by merely exchanging achiral substituents at the terminal of chiral gelators. This work not only presents a feasible strategy to achieve the handedness inversion of helical nanostructures for better understanding of chiral self-assembly process in supramolecular chemistry but also facilities the development of smart materials with controllable handedness in materials science. MOE (Min. of Education, S’pore) 2020-06-08T08:31:16Z 2020-06-08T08:31:16Z 2017 Journal Article Liu, G., Li, X., Sheng, J., Li, P.-Z., Ong, W. K., Phua, F. S. Z., . . . Zhao, Y. (2017). Helicity inversion of supramolecular hydrogels induced by achiral substituents. ACS Nano, 11(12), 11880-11889. doi:10.1021/acsnano.7b06097 1936-0851 https://hdl.handle.net/10356/141448 10.1021/acsnano.7b06097 29140680 2-s2.0-85040033033 12 11 11880 11889 en ACS Nano © 2017 American Chemical Society. All rights reserved. |
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Science::Chemistry Achiral Substituent Helicity Inversion |
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Science::Chemistry Achiral Substituent Helicity Inversion Liu, Guofeng Li, Xin Sheng, Jianhui Li, Pei-Zhou Ong, Wee Kong Phua, Fiona Soo Zeng Ågren, Hans Zhu, Liangliang Zhao, Yanli Helicity inversion of supramolecular hydrogels induced by achiral substituents |
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Probing the supramolecular chirality of assemblies and controlling their handedness are closely related to the origin of chirality at the supramolecular level and the development of smart materials with desired handedness. However, it remains unclear how achiral residues covalently bonded to chiral amino acids can function in the chirality inversion of supramolecular assemblies. Herein, we report macroscopic chirality and dynamic manipulation of chiroptical activity of hydrogels self-assembled from phenylalanine derivatives, together with the inversion of their handedness achieved solely by exchanging achiral substituents between oligo(ethylene glycol) and carboxylic acid groups. This helicity inversion is mainly induced by distinct stacking mode of the self-assembled building blocks, as collectively confirmed by scanning electron microscopy, circular dichroism, crystallography, and molecular dynamics calculations. Through this straightforward approach, we were able to invert the handedness of helical assemblies by merely exchanging achiral substituents at the terminal of chiral gelators. This work not only presents a feasible strategy to achieve the handedness inversion of helical nanostructures for better understanding of chiral self-assembly process in supramolecular chemistry but also facilities the development of smart materials with controllable handedness in materials science. |
| author2 |
School of Materials Science and Engineering |
| author_facet |
School of Materials Science and Engineering Liu, Guofeng Li, Xin Sheng, Jianhui Li, Pei-Zhou Ong, Wee Kong Phua, Fiona Soo Zeng Ågren, Hans Zhu, Liangliang Zhao, Yanli |
| format |
Article |
| author |
Liu, Guofeng Li, Xin Sheng, Jianhui Li, Pei-Zhou Ong, Wee Kong Phua, Fiona Soo Zeng Ågren, Hans Zhu, Liangliang Zhao, Yanli |
| author_sort |
Liu, Guofeng |
| title |
Helicity inversion of supramolecular hydrogels induced by achiral substituents |
| title_short |
Helicity inversion of supramolecular hydrogels induced by achiral substituents |
| title_full |
Helicity inversion of supramolecular hydrogels induced by achiral substituents |
| title_fullStr |
Helicity inversion of supramolecular hydrogels induced by achiral substituents |
| title_full_unstemmed |
Helicity inversion of supramolecular hydrogels induced by achiral substituents |
| title_sort |
helicity inversion of supramolecular hydrogels induced by achiral substituents |
| publishDate |
2020 |
| url |
https://hdl.handle.net/10356/141448 |
| _version_ |
1681058085950455808 |