Inverse evolution of helicity from the molecular to the macroscopic level based on N-terminal aromatic amino acids
Precise control of the emergence of macroscopic helicity with specific handedness is promising in rationally designing chiral nanomaterials, but it is rather challenging. Herein, we present a protocol to address the transmission of helicity at a molecularly resolved level to a macroscopically resolv...
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sg-ntu-dr.10356-1601222022-07-13T02:35:54Z Inverse evolution of helicity from the molecular to the macroscopic level based on N-terminal aromatic amino acids Liang, Juncong Hao, Aiyou Xing, Pengyao Zhao, Yanli School of Physical and Mathematical Sciences Science::Chemistry Aromatic Amino Acids Chiral Systems Precise control of the emergence of macroscopic helicity with specific handedness is promising in rationally designing chiral nanomaterials, but it is rather challenging. Herein, we present a protocol to address the transmission of helicity at a molecularly resolved level to a macroscopically resolved level, in which process supramolecular chirality undergoes an inversion. A series of N-terminal aromatic amino acids could self-assemble in water, enabling the occurrence of helicity at the molecularly resolved scale, evidenced by the single crystal structure and chiroptical responses. While it failed to transmit the helicity to the macroscopic scale for individual self-assembly, the coassembly with small organic binder through hydrogen bonding interactions allows for the emergence of helical structures at the nano/micrometer scale. Experimental and theoretical results demonstrate that the introduction of extra hydrogen bonds enables a moderate crystallinity of coassemblies with remaining one-dimensional orientation to enhance the helical growth. The transmission of helicity to higher levels by coassembly is accompanied by the helicity inversion, resulting from the exchange of hydrogen bonds. This study presents a rational protocol to precisely control the emergence of macroscopic helicity from molecularly resolved helicity with finely tailored handedness, providing a deeper understanding of the chirality origin in the assembled systems in order to facilitate the design and construction of functional chiral nanomaterials. Ministry of Education (MOE) National Research Foundation (NRF) This work is supported by the Qilu Young Scholarship Funding of Shandong University, the National Natural Science Foundation of China (21872087 and 21901145), the Natural Science Foundation of Jiangsu Province (BK20190209), and the Youth Cross-Scientific Innovation Group of Shandong University (2020QNQT003). This research is also supported by the Singapore Academic Research Fund (RT12/19) and the Singapore National Research Foundation Investigatorship (NRF-NRFI2018-03). 2022-07-13T02:35:54Z 2022-07-13T02:35:54Z 2021 Journal Article Liang, J., Hao, A., Xing, P. & Zhao, Y. (2021). Inverse evolution of helicity from the molecular to the macroscopic level based on N-terminal aromatic amino acids. ACS Nano, 15(3), 5322-5332. https://dx.doi.org/10.1021/acsnano.0c10876 1936-0851 https://hdl.handle.net/10356/160122 10.1021/acsnano.0c10876 33683099 2-s2.0-85103453583 3 15 5322 5332 en RT12/19 NRF-NRFI2018-03 ACS Nano © 2021 American Chemical Society. All rights reserved. |
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Science::Chemistry Aromatic Amino Acids Chiral Systems Liang, Juncong Hao, Aiyou Xing, Pengyao Zhao, Yanli Inverse evolution of helicity from the molecular to the macroscopic level based on N-terminal aromatic amino acids |
| description |
Precise control of the emergence of macroscopic helicity with specific handedness is promising in rationally designing chiral nanomaterials, but it is rather challenging. Herein, we present a protocol to address the transmission of helicity at a molecularly resolved level to a macroscopically resolved level, in which process supramolecular chirality undergoes an inversion. A series of N-terminal aromatic amino acids could self-assemble in water, enabling the occurrence of helicity at the molecularly resolved scale, evidenced by the single crystal structure and chiroptical responses. While it failed to transmit the helicity to the macroscopic scale for individual self-assembly, the coassembly with small organic binder through hydrogen bonding interactions allows for the emergence of helical structures at the nano/micrometer scale. Experimental and theoretical results demonstrate that the introduction of extra hydrogen bonds enables a moderate crystallinity of coassemblies with remaining one-dimensional orientation to enhance the helical growth. The transmission of helicity to higher levels by coassembly is accompanied by the helicity inversion, resulting from the exchange of hydrogen bonds. This study presents a rational protocol to precisely control the emergence of macroscopic helicity from molecularly resolved helicity with finely tailored handedness, providing a deeper understanding of the chirality origin in the assembled systems in order to facilitate the design and construction of functional chiral nanomaterials. |
| author2 |
School of Physical and Mathematical Sciences |
| author_facet |
School of Physical and Mathematical Sciences Liang, Juncong Hao, Aiyou Xing, Pengyao Zhao, Yanli |
| format |
Article |
| author |
Liang, Juncong Hao, Aiyou Xing, Pengyao Zhao, Yanli |
| author_sort |
Liang, Juncong |
| title |
Inverse evolution of helicity from the molecular to the macroscopic level based on N-terminal aromatic amino acids |
| title_short |
Inverse evolution of helicity from the molecular to the macroscopic level based on N-terminal aromatic amino acids |
| title_full |
Inverse evolution of helicity from the molecular to the macroscopic level based on N-terminal aromatic amino acids |
| title_fullStr |
Inverse evolution of helicity from the molecular to the macroscopic level based on N-terminal aromatic amino acids |
| title_full_unstemmed |
Inverse evolution of helicity from the molecular to the macroscopic level based on N-terminal aromatic amino acids |
| title_sort |
inverse evolution of helicity from the molecular to the macroscopic level based on n-terminal aromatic amino acids |
| publishDate |
2022 |
| url |
https://hdl.handle.net/10356/160122 |
| _version_ |
1738844791964172288 |