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Effects of synthesis temperature on structures and properties of epoxidized soybean oil oligomers and starch-based bioplastics

The work investigated the synthesis of the oligomers with citric acid (CA) and epoxidized soybean oils (ESO) at various temperatures and the effects of the oligomers on the structures and properties of starch-based bioplastics. CA was bonded effectively onto ESO via ring-opening polymerization at 90...

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Main Authors: Yang, Jianlei, Xu, Shicai, Ran, Xiuzhen, Ching, Yern Chee, Sui, Xiao, Wei, Yunwei
Format: Article
Published: Wiley 2024
Subjects:
TP Chemical technology
Online Access:http://eprints.um.edu.my/45711/
https://doi.org/10.1002/pat.6325
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spelling my.um.eprints.457112024-11-11T01:24:43Z http://eprints.um.edu.my/45711/ Effects of synthesis temperature on structures and properties of epoxidized soybean oil oligomers and starch-based bioplastics Yang, Jianlei Xu, Shicai Ran, Xiuzhen Ching, Yern Chee Sui, Xiao Wei, Yunwei TP Chemical technology The work investigated the synthesis of the oligomers with citric acid (CA) and epoxidized soybean oils (ESO) at various temperatures and the effects of the oligomers on the structures and properties of starch-based bioplastics. CA was bonded effectively onto ESO via ring-opening polymerization at 90 degrees C as confirmed by the results of Fourier-transform infrared spectroscopy, thermogravimetric analysis, and carboxylic group contents of CA-ESO oligomers (CESO). The oligomers exhibited higher thermal stability than ESO. Regarding starch-based bioplastics, CESO disrupted the hydrogen bonding interaction within starch molecules and formed the esterification reaction with starch. The bioplastics containing CESO exhibited remarkably higher structural homogeneity and opacity as the synthesis temperatures of CESO increased. However, the thermal properties of the bioplastics with various CESO reduced, which might be due to the decomposition of starch by CESO. The films containing CESO also exhibited lower tensile strength than the film with ESO, which might be related to the decomposition, crosslinking, and plasticization effects of CESO on starch. The bioplastics with CESO exhibited lower degradation due to a more intense interaction of CESO and starch. The study demonstrated the potential of CA as an interfacial linker of starch/ESO-based bioplastics by adjusting the synthetic temperatures of CESO. Wiley 2024-02 Article PeerReviewed Yang, Jianlei and Xu, Shicai and Ran, Xiuzhen and Ching, Yern Chee and Sui, Xiao and Wei, Yunwei (2024) Effects of synthesis temperature on structures and properties of epoxidized soybean oil oligomers and starch-based bioplastics. Polymers for Advanced Technologies, 35 (2). e6325. ISSN 1042-7147, DOI https://doi.org/10.1002/pat.6325 <https://doi.org/10.1002/pat.6325>. https://doi.org/10.1002/pat.6325 10.1002/pat.6325
institution Universiti Malaya
building UM Library
collection Institutional Repository
continent Asia
country Malaysia
content_provider Universiti Malaya
content_source UM Research Repository
url_provider http://eprints.um.edu.my/
topic TP Chemical technology
spellingShingle TP Chemical technology
Yang, Jianlei
Xu, Shicai
Ran, Xiuzhen
Ching, Yern Chee
Sui, Xiao
Wei, Yunwei
Effects of synthesis temperature on structures and properties of epoxidized soybean oil oligomers and starch-based bioplastics
description The work investigated the synthesis of the oligomers with citric acid (CA) and epoxidized soybean oils (ESO) at various temperatures and the effects of the oligomers on the structures and properties of starch-based bioplastics. CA was bonded effectively onto ESO via ring-opening polymerization at 90 degrees C as confirmed by the results of Fourier-transform infrared spectroscopy, thermogravimetric analysis, and carboxylic group contents of CA-ESO oligomers (CESO). The oligomers exhibited higher thermal stability than ESO. Regarding starch-based bioplastics, CESO disrupted the hydrogen bonding interaction within starch molecules and formed the esterification reaction with starch. The bioplastics containing CESO exhibited remarkably higher structural homogeneity and opacity as the synthesis temperatures of CESO increased. However, the thermal properties of the bioplastics with various CESO reduced, which might be due to the decomposition of starch by CESO. The films containing CESO also exhibited lower tensile strength than the film with ESO, which might be related to the decomposition, crosslinking, and plasticization effects of CESO on starch. The bioplastics with CESO exhibited lower degradation due to a more intense interaction of CESO and starch. The study demonstrated the potential of CA as an interfacial linker of starch/ESO-based bioplastics by adjusting the synthetic temperatures of CESO.
format Article
author Yang, Jianlei
Xu, Shicai
Ran, Xiuzhen
Ching, Yern Chee
Sui, Xiao
Wei, Yunwei
author_facet Yang, Jianlei
Xu, Shicai
Ran, Xiuzhen
Ching, Yern Chee
Sui, Xiao
Wei, Yunwei
author_sort Yang, Jianlei
title Effects of synthesis temperature on structures and properties of epoxidized soybean oil oligomers and starch-based bioplastics
title_short Effects of synthesis temperature on structures and properties of epoxidized soybean oil oligomers and starch-based bioplastics
title_full Effects of synthesis temperature on structures and properties of epoxidized soybean oil oligomers and starch-based bioplastics
title_fullStr Effects of synthesis temperature on structures and properties of epoxidized soybean oil oligomers and starch-based bioplastics
title_full_unstemmed Effects of synthesis temperature on structures and properties of epoxidized soybean oil oligomers and starch-based bioplastics
title_sort effects of synthesis temperature on structures and properties of epoxidized soybean oil oligomers and starch-based bioplastics
publisher Wiley
publishDate 2024
url http://eprints.um.edu.my/45711/
https://doi.org/10.1002/pat.6325
_version_ 1816130447118172160
score 13.214268

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