Morphology and linear rheology of comb-like copolymer melts with high grafting density: Ⅱ. Heterografted PVSt-g-(PS/PE) comb-like copolymer with short backbone and mixed side chains

Morphology and linear rheology of comb-like copolymer melts with high grafting density: Ⅱ. Heterografted PVSt-g-(PS/PE) comb-like copolymer with short backbone and mixed side chains

A series of heterografted PVSt-g-(PS/PE) based on polystyrene (PS) backbone with mixed PS and polyethylene (PE) side chains was obtained, in which the branching density of PVSt-g-(PS/PE) was above 72%. Because of the extremely short backbone, long side chains and high branching density in these comb...

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Main Authors: Lin, Yichao, Zhang, Shaofeng, Ye, Lin, Gu, Yang, Wang, Yanhui, Ma, Li, Tang, Tao
Other Authors: School of Physical and Mathematical Sciences
Format: Article
Language:English
Published: 2020
Subjects:
Science::Chemistry
Comb-like Copolymer
Microphase-separated Structure
Online Access:https://hdl.handle.net/10356/137762
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Institution: Nanyang Technological University
Language: English
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spelling sg-ntu-dr.10356-1377622020-04-14T02:44:51Z Morphology and linear rheology of comb-like copolymer melts with high grafting density: Ⅱ. Heterografted PVSt-g-(PS/PE) comb-like copolymer with short backbone and mixed side chains Lin, Yichao Zhang, Shaofeng Ye, Lin Gu, Yang Wang, Yanhui Ma, Li Tang, Tao School of Physical and Mathematical Sciences Science::Chemistry Comb-like Copolymer Microphase-separated Structure A series of heterografted PVSt-g-(PS/PE) based on polystyrene (PS) backbone with mixed PS and polyethylene (PE) side chains was obtained, in which the branching density of PVSt-g-(PS/PE) was above 72%. Because of the extremely short backbone, long side chains and high branching density in these comb-like copolymers, the topological structure of PVSt-g-(PS/PE) was similar to asymmetrical star copolymers. By adjusting the molar ratio of PS and PE side chains, the total PS (PVSt backbone + side chain PS) volume fraction in the graft copolymers could be adjusted. PVSt-g-(PS/PE) showed a microphase-separated structure at the melt state, depending on the composition of the copolymers. When the volume fraction of PS changed from 42.7% to 76.9%, the microphase-separated structures changed from lamellar phase structure to cylindrical morphology. Furthermore, all the PVSt-g-(PS/PE) samples with the microphase-separated structure showed a typical rheological behavior of cross-linked network-like structure, but the change trend of melt elasticity of the copolymer with increasing temperature depended on the microphase-separated structure. 2020-04-14T02:44:51Z 2020-04-14T02:44:51Z 2018 Journal Article Lin, Y., Zhang, S., Ye, L., Gu, Y., Wang, Y., Ma, L., & Tang, T. (2018). Morphology and linear rheology of comb-like copolymer melts with high grafting density: Ⅱ. Heterografted PVSt-g-(PS/PE) comb-like copolymer with short backbone and mixed side chains. Polymer, 137, 222-230. doi:10.1016/j.polymer.2018.01.023 0032-3861 https://hdl.handle.net/10356/137762 10.1016/j.polymer.2018.01.023 2-s2.0-85040661778 137 222 230 en Polymer © 2018 Elsevier Ltd. All rights reserved.
institution Nanyang Technological University
building NTU Library
country Singapore
collection DR-NTU
language English
topic Science::Chemistry
Comb-like Copolymer
Microphase-separated Structure
spellingShingle Science::Chemistry
Comb-like Copolymer
Microphase-separated Structure
Lin, Yichao
Zhang, Shaofeng
Ye, Lin
Gu, Yang
Wang, Yanhui
Ma, Li
Tang, Tao
Morphology and linear rheology of comb-like copolymer melts with high grafting density: Ⅱ. Heterografted PVSt-g-(PS/PE) comb-like copolymer with short backbone and mixed side chains
description A series of heterografted PVSt-g-(PS/PE) based on polystyrene (PS) backbone with mixed PS and polyethylene (PE) side chains was obtained, in which the branching density of PVSt-g-(PS/PE) was above 72%. Because of the extremely short backbone, long side chains and high branching density in these comb-like copolymers, the topological structure of PVSt-g-(PS/PE) was similar to asymmetrical star copolymers. By adjusting the molar ratio of PS and PE side chains, the total PS (PVSt backbone + side chain PS) volume fraction in the graft copolymers could be adjusted. PVSt-g-(PS/PE) showed a microphase-separated structure at the melt state, depending on the composition of the copolymers. When the volume fraction of PS changed from 42.7% to 76.9%, the microphase-separated structures changed from lamellar phase structure to cylindrical morphology. Furthermore, all the PVSt-g-(PS/PE) samples with the microphase-separated structure showed a typical rheological behavior of cross-linked network-like structure, but the change trend of melt elasticity of the copolymer with increasing temperature depended on the microphase-separated structure.
author2 School of Physical and Mathematical Sciences
author_facet School of Physical and Mathematical Sciences
Lin, Yichao
Zhang, Shaofeng
Ye, Lin
Gu, Yang
Wang, Yanhui
Ma, Li
Tang, Tao
format Article
author Lin, Yichao
Zhang, Shaofeng
Ye, Lin
Gu, Yang
Wang, Yanhui
Ma, Li
Tang, Tao
author_sort Lin, Yichao
title Morphology and linear rheology of comb-like copolymer melts with high grafting density: Ⅱ. Heterografted PVSt-g-(PS/PE) comb-like copolymer with short backbone and mixed side chains
title_short Morphology and linear rheology of comb-like copolymer melts with high grafting density: Ⅱ. Heterografted PVSt-g-(PS/PE) comb-like copolymer with short backbone and mixed side chains
title_full Morphology and linear rheology of comb-like copolymer melts with high grafting density: Ⅱ. Heterografted PVSt-g-(PS/PE) comb-like copolymer with short backbone and mixed side chains
title_fullStr Morphology and linear rheology of comb-like copolymer melts with high grafting density: Ⅱ. Heterografted PVSt-g-(PS/PE) comb-like copolymer with short backbone and mixed side chains
title_full_unstemmed Morphology and linear rheology of comb-like copolymer melts with high grafting density: Ⅱ. Heterografted PVSt-g-(PS/PE) comb-like copolymer with short backbone and mixed side chains
title_sort morphology and linear rheology of comb-like copolymer melts with high grafting density: Ⅱ. heterografted pvst-g-(ps/pe) comb-like copolymer with short backbone and mixed side chains
publishDate 2020
url https://hdl.handle.net/10356/137762
_version_ 1681056836456808448

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