Synthesis and supramolecular liquid crystalline structure modulation of side-chain polynorbornenes with asymmetrical substituent mesogenic groups

The side-chain polymer is one of the most familiar polymer architectures due to its structural diversity and functionality. In this work, we designed and synthesized a series of side-chain polynorbornenes (PNB- n -2, PNB- n -3 and PNB- n -23) with dodecyloxy biphenyl mesogenic groups attached at the...

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Published in	Polymer chemistry Vol. 1; no. 42; pp. 5751 - 5759
Main Authors	Tu, Yuanyang, Wu, Yijin, Pei, Jiwei, Qu, Wentao, Lu, Huanjun, Liu, Feng, Chen, Xiao-Fang
Format	Journal Article
Language	English
Published	Cambridge Royal Society of Chemistry 14.11.2019
Subjects	Asymmetry Crystal structure Crystallinity Dimensional stability Electron density Frustration Lamellar structure Liquid crystals NMR Nuclear magnetic resonance Polymer chemistry Polymers Polynorbornene Temperature dependence Thermal stability
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Abstract	The side-chain polymer is one of the most familiar polymer architectures due to its structural diversity and functionality. In this work, we designed and synthesized a series of side-chain polynorbornenes (PNB- n -2, PNB- n -3 and PNB- n -23) with dodecyloxy biphenyl mesogenic groups attached at the unconventional asymmetrical substituent positions on the central phenyl group. Their phase behaviours and self-organized structures have been systematically investigated in combination with SAXS, WAXS, GISAXS, DSC, POM, and AFM. The substituent position has an important influence on the supramolecular liquid crystalline structure evolution. When the mesogenic group is attached to the 3 position for PNB- n -3 ( n = 2, 6), a lamellar phase exists. No LC phase could be formed for PNB- n -2 ( n = 2, 6) with a mesogenic group at the 2 position. When both the 2 and 3 positions are attached with mesogenic groups for PNB- n -23 ( n = 2, 6, 8), a thermally stable supramolecular two-dimensional ordered structure with an oblique symmetry and lattice parameter larger than 10 nm has been found. It originates from the frustration of the lamellar structure. During a heating process, the frustration could be diminished and the lamellar phase appears at a higher temperature. The substituent position and number have an important effect on the supramolecular liquid crystalline structure evolution in side-chain polymers.
AbstractList	The side-chain polymer is one of the most familiar polymer architectures due to its structural diversity and functionality. In this work, we designed and synthesized a series of side-chain polynorbornenes (PNB- n -2, PNB- n -3 and PNB- n -23) with dodecyloxy biphenyl mesogenic groups attached at the unconventional asymmetrical substituent positions on the central phenyl group. Their phase behaviours and self-organized structures have been systematically investigated in combination with SAXS, WAXS, GISAXS, DSC, POM, and AFM. The substituent position has an important influence on the supramolecular liquid crystalline structure evolution. When the mesogenic group is attached to the 3 position for PNB- n -3 ( n = 2, 6), a lamellar phase exists. No LC phase could be formed for PNB- n -2 ( n = 2, 6) with a mesogenic group at the 2 position. When both the 2 and 3 positions are attached with mesogenic groups for PNB- n -23 ( n = 2, 6, 8), a thermally stable supramolecular two-dimensional ordered structure with an oblique symmetry and lattice parameter larger than 10 nm has been found. It originates from the frustration of the lamellar structure. During a heating process, the frustration could be diminished and the lamellar phase appears at a higher temperature. The substituent position and number have an important effect on the supramolecular liquid crystalline structure evolution in side-chain polymers. The side-chain polymer is one of the most familiar polymer architectures due to its structural diversity and functionality. In this work, we designed and synthesized a series of side-chain polynorbornenes (PNB-n-2, PNB-n-3 and PNB-n-23) with dodecyloxy biphenyl mesogenic groups attached at the unconventional asymmetrical substituent positions on the central phenyl group. Their phase behaviours and self-organized structures have been systematically investigated in combination with SAXS, WAXS, GISAXS, DSC, POM, and AFM. The substituent position has an important influence on the supramolecular liquid crystalline structure evolution. When the mesogenic group is attached to the 3 position for PNB-n-3 (n = 2, 6), a lamellar phase exists. No LC phase could be formed for PNB-n-2 (n = 2, 6) with a mesogenic group at the 2 position. When both the 2 and 3 positions are attached with mesogenic groups for PNB-n-23 (n = 2, 6, 8), a thermally stable supramolecular two-dimensional ordered structure with an oblique symmetry and lattice parameter larger than 10 nm has been found. It originates from the frustration of the lamellar structure. During a heating process, the frustration could be diminished and the lamellar phase appears at a higher temperature. The side-chain polymer is one of the most familiar polymer architectures due to its structural diversity and functionality. In this work, we designed and synthesized a series of side-chain polynorbornenes (PNB- n -2, PNB- n -3 and PNB- n -23) with dodecyloxy biphenyl mesogenic groups attached at the unconventional asymmetrical substituent positions on the central phenyl group. Their phase behaviours and self-organized structures have been systematically investigated in combination with SAXS, WAXS, GISAXS, DSC, POM, and AFM. The substituent position has an important influence on the supramolecular liquid crystalline structure evolution. When the mesogenic group is attached to the 3 position for PNB- n -3 ( n = 2, 6), a lamellar phase exists. No LC phase could be formed for PNB- n -2 ( n = 2, 6) with a mesogenic group at the 2 position. When both the 2 and 3 positions are attached with mesogenic groups for PNB- n -23 ( n = 2, 6, 8), a thermally stable supramolecular two-dimensional ordered structure with an oblique symmetry and lattice parameter larger than 10 nm has been found. It originates from the frustration of the lamellar structure. During a heating process, the frustration could be diminished and the lamellar phase appears at a higher temperature.
Author	Tu, Yuanyang Pei, Jiwei Liu, Feng Lu, Huanjun Wu, Yijin Qu, Wentao Chen, Xiao-Fang
AuthorAffiliation	Chemical Engineering and Materials Science Suzhou Key Laboratory of Macromolecular Design and Precision Synthesis College of Chemistry Soochow University School of Materials Science & Engineering State Key Laboratory for Mechanical Behavior of Materials Shaanxi International Research Center for Soft Matter Jiangsu Key Laboratory of Advanced Functional Polymer Design and Application State and Local Joint Engineering Laboratory for Novel Functional Polymeric Materials Xi'an Jiaotong University
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Notes	1 Electronic supplementary information (ESI) available: Materials, TGA, POM and AFM measurements, electron density reconstruction, and 10.1039/c9py01197h 23, temperature-dependent SAXS, GISAXS and WAXS of PNB-2-23 and PNB-8-23. See DOI n H NMR spectra of monomers and polymers; DSC curves of PNB-
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Snippet	The side-chain polymer is one of the most familiar polymer architectures due to its structural diversity and functionality. In this work, we designed and...
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SubjectTerms	Asymmetry Crystal structure Crystallinity Dimensional stability Electron density Frustration Lamellar structure Liquid crystals NMR Nuclear magnetic resonance Polymer chemistry Polymers Polynorbornene Temperature dependence Thermal stability
Title	Synthesis and supramolecular liquid crystalline structure modulation of side-chain polynorbornenes with asymmetrical substituent mesogenic groups
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