Environment‐adaptive coassembly/self‐sorting and stimulus‐responsiveness transfer based on cholesterol building blocks
Manipulating the property transfer in nanosystems is a challenging task since it requires switchable molecular packing such as separate aggregation (self‐sorting) or synergistic aggregation (coassembly). Herein, a unique manipulation of self‐sorting/coassembly aggregation and the observation of swit...
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sg-ntu-dr.10356-855372023-02-28T19:32:57Z Environment‐adaptive coassembly/self‐sorting and stimulus‐responsiveness transfer based on cholesterol building blocks Xing, Pengyao Li, Peizhou Chen, Hongzhong Xiang, Huijing Zhao, Yanli Tham, Phoebe Huijun School of Materials Science & Engineering School of Physical and Mathematical Sciences Cholesterol Coassembly Manipulating the property transfer in nanosystems is a challenging task since it requires switchable molecular packing such as separate aggregation (self‐sorting) or synergistic aggregation (coassembly). Herein, a unique manipulation of self‐sorting/coassembly aggregation and the observation of switchable stimulus‐responsiveness transfer in a two component self‐assembly system are reported. Two building blocks bearing the same cholesterol group give versatile topological structures in polar and nonpolar solvents. One building block (cholesterol conjugated cynanostilbene, CCS) consists of cholesterol conjugated with a cynanostilbene unit, and the other one (C10CN) is comprised of cholesterol connected with a naphthalimide group having a flexible long alkyl chain. Their assemblies including gel, crystalline plates, and vesicles are obtained. In gel and crystalline plate phases, the self‐sorting behavior dominates, while synergistic coassembly occurs in vesicle phase. Since CCS having the cyanostilbene group can respond to the light irradiation, it undergoes light‐induced chiral amplification. C10CN is thermally responsive, whereby its supramolecular chirality is inversed upon heating. In coassembled vesicles, it is interestingly observed that their responsiveness can be transferred by each other, i.e., the C10CN segment is sensitive to the light irradiation, while CCS is thermoresponsive. This unprecedented behavior of the property transfer may shine a light to the precise fabrication of smart materials. Published version 2018-07-24T08:25:11Z 2019-12-06T16:05:33Z 2018-07-24T08:25:11Z 2019-12-06T16:05:33Z 2017 Journal Article Xing, P., Tham, P. H., Li, P., Chen, H., Xiang, H., & Zhao, Y. (2017). Environment‐adaptive coassembly/self‐sorting and stimulus‐responsiveness transfer based on cholesterol building blocks. Advanced Science, 5(1), 1700552-. https://hdl.handle.net/10356/85537 http://hdl.handle.net/10220/45209 10.1002/advs.201700552 en Advanced Science © 2017 The Authors. Published by WILEY-VCH Verlag GmbH & Co. KGaA, Weinheim. This is an open access article under the terms of the Creative Commons Attribution License, which permits use, distribution and reproduction in any medium, provided the original work is properly cited. 11 p. application/pdf |
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Cholesterol Coassembly |
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Cholesterol Coassembly Xing, Pengyao Li, Peizhou Chen, Hongzhong Xiang, Huijing Zhao, Yanli Tham, Phoebe Huijun Environment‐adaptive coassembly/self‐sorting and stimulus‐responsiveness transfer based on cholesterol building blocks |
| description |
Manipulating the property transfer in nanosystems is a challenging task since it requires switchable molecular packing such as separate aggregation (self‐sorting) or synergistic aggregation (coassembly). Herein, a unique manipulation of self‐sorting/coassembly aggregation and the observation of switchable stimulus‐responsiveness transfer in a two component self‐assembly system are reported. Two building blocks bearing the same cholesterol group give versatile topological structures in polar and nonpolar solvents. One building block (cholesterol conjugated cynanostilbene, CCS) consists of cholesterol conjugated with a cynanostilbene unit, and the other one (C10CN) is comprised of cholesterol connected with a naphthalimide group having a flexible long alkyl chain. Their assemblies including gel, crystalline plates, and vesicles are obtained. In gel and crystalline plate phases, the self‐sorting behavior dominates, while synergistic coassembly occurs in vesicle phase. Since CCS having the cyanostilbene group can respond to the light irradiation, it undergoes light‐induced chiral amplification. C10CN is thermally responsive, whereby its supramolecular chirality is inversed upon heating. In coassembled vesicles, it is interestingly observed that their responsiveness can be transferred by each other, i.e., the C10CN segment is sensitive to the light irradiation, while CCS is thermoresponsive. This unprecedented behavior of the property transfer may shine a light to the precise fabrication of smart materials. |
| author2 |
School of Materials Science & Engineering |
| author_facet |
School of Materials Science & Engineering Xing, Pengyao Li, Peizhou Chen, Hongzhong Xiang, Huijing Zhao, Yanli Tham, Phoebe Huijun |
| format |
Article |
| author |
Xing, Pengyao Li, Peizhou Chen, Hongzhong Xiang, Huijing Zhao, Yanli Tham, Phoebe Huijun |
| author_sort |
Xing, Pengyao |
| title |
Environment‐adaptive coassembly/self‐sorting and stimulus‐responsiveness transfer based on cholesterol building blocks |
| title_short |
Environment‐adaptive coassembly/self‐sorting and stimulus‐responsiveness transfer based on cholesterol building blocks |
| title_full |
Environment‐adaptive coassembly/self‐sorting and stimulus‐responsiveness transfer based on cholesterol building blocks |
| title_fullStr |
Environment‐adaptive coassembly/self‐sorting and stimulus‐responsiveness transfer based on cholesterol building blocks |
| title_full_unstemmed |
Environment‐adaptive coassembly/self‐sorting and stimulus‐responsiveness transfer based on cholesterol building blocks |
| title_sort |
environment‐adaptive coassembly/self‐sorting and stimulus‐responsiveness transfer based on cholesterol building blocks |
| publishDate |
2018 |
| url |
https://hdl.handle.net/10356/85537 http://hdl.handle.net/10220/45209 |
| _version_ |
1759855919182643200 |