Micro-DSC, rheological and NMR investigations of the gelation of gallic acid and xyloglucan

Micro-DSC, rheological and NMR investigations of the gelation of gallic acid and xyloglucan

A novel thermoreversible gelling system consisting of tamarind seed xyloglucan (TSX) and gallic acid (GA) was prepared and investigated. The thermal transition temperatures obtained from both micro-DSC and viscoelastic methods were consistent. The hysteresis was observed for the GA–TSX gelling syste...

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Main Authors: Hirun, Namon, Bao, Hongqian, Li, Lin, Deen, Gulam Roshan, Tantishaiyakul, Vimon
Other Authors: School of Mechanical and Aerospace Engineering
Format: Article
Language:English
Published: 2013
Online Access:https://hdl.handle.net/10356/96674
http://hdl.handle.net/10220/10353
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Institution: Nanyang Technological University
Language: English
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spelling sg-ntu-dr.10356-966742020-03-07T13:19:19Z Micro-DSC, rheological and NMR investigations of the gelation of gallic acid and xyloglucan Hirun, Namon Bao, Hongqian Li, Lin Deen, Gulam Roshan Tantishaiyakul, Vimon School of Mechanical and Aerospace Engineering A novel thermoreversible gelling system consisting of tamarind seed xyloglucan (TSX) and gallic acid (GA) was prepared and investigated. The thermal transition temperatures obtained from both micro-DSC and viscoelastic methods were consistent. The hysteresis was observed for the GA–TSX gelling system. The hydrogen bonding interactions between GA and TSX were detected using 13C nuclear magnetic resonance analyses. The carboxylic acid and the hydroxyl group at the para position of GA are the principal groups that interact with TSX. A low temperature induced intermolecular aggregation of TSX via hydrogen bonds between GA and TSX, leading to the formation of a gel network. The thermal stability of the GA–TSX gel increased with increasing the GA concentration. The viscoelastic behavior of the GA–TSX mixtures depended on the concentration of GA. For the mixture of GA and 1% (w/v) TSX, the critical gel concentration of GA was 0.69% (w/v) at physiological temperature (37 °C) and the sol–gel transition was well described by the scaling law. Moreover, the dried GA–TSX gels exhibited various morphologies that reflected the dependence of the arrangement of the TSX chains on the GA concentration. 2013-06-13T07:19:48Z 2019-12-06T19:33:48Z 2013-06-13T07:19:48Z 2019-12-06T19:33:48Z 2012 2012 Journal Article Hirun, N., Bao, H., Li, L., Deen, G. R., & Tantishaiyakul, V. (2012). Micro-DSC, rheological and NMR investigations of the gelation of gallic acid and xyloglucan. Soft Matter, 8(27), 7258-7268. 1744-683X https://hdl.handle.net/10356/96674 http://hdl.handle.net/10220/10353 10.1039/c2sm25056j en Soft matter © 2012 The Royal Society of Chemistry.
institution Nanyang Technological University
building NTU Library
country Singapore
collection DR-NTU
language English
description A novel thermoreversible gelling system consisting of tamarind seed xyloglucan (TSX) and gallic acid (GA) was prepared and investigated. The thermal transition temperatures obtained from both micro-DSC and viscoelastic methods were consistent. The hysteresis was observed for the GA–TSX gelling system. The hydrogen bonding interactions between GA and TSX were detected using 13C nuclear magnetic resonance analyses. The carboxylic acid and the hydroxyl group at the para position of GA are the principal groups that interact with TSX. A low temperature induced intermolecular aggregation of TSX via hydrogen bonds between GA and TSX, leading to the formation of a gel network. The thermal stability of the GA–TSX gel increased with increasing the GA concentration. The viscoelastic behavior of the GA–TSX mixtures depended on the concentration of GA. For the mixture of GA and 1% (w/v) TSX, the critical gel concentration of GA was 0.69% (w/v) at physiological temperature (37 °C) and the sol–gel transition was well described by the scaling law. Moreover, the dried GA–TSX gels exhibited various morphologies that reflected the dependence of the arrangement of the TSX chains on the GA concentration.
author2 School of Mechanical and Aerospace Engineering
author_facet School of Mechanical and Aerospace Engineering
Hirun, Namon
Bao, Hongqian
Li, Lin
Deen, Gulam Roshan
Tantishaiyakul, Vimon
format Article
author Hirun, Namon
Bao, Hongqian
Li, Lin
Deen, Gulam Roshan
Tantishaiyakul, Vimon
spellingShingle Hirun, Namon
Bao, Hongqian
Li, Lin
Deen, Gulam Roshan
Tantishaiyakul, Vimon
Micro-DSC, rheological and NMR investigations of the gelation of gallic acid and xyloglucan
author_sort Hirun, Namon
title Micro-DSC, rheological and NMR investigations of the gelation of gallic acid and xyloglucan
title_short Micro-DSC, rheological and NMR investigations of the gelation of gallic acid and xyloglucan
title_full Micro-DSC, rheological and NMR investigations of the gelation of gallic acid and xyloglucan
title_fullStr Micro-DSC, rheological and NMR investigations of the gelation of gallic acid and xyloglucan
title_full_unstemmed Micro-DSC, rheological and NMR investigations of the gelation of gallic acid and xyloglucan
title_sort micro-dsc, rheological and nmr investigations of the gelation of gallic acid and xyloglucan
publishDate 2013
url https://hdl.handle.net/10356/96674
http://hdl.handle.net/10220/10353
_version_ 1681049229002276864

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