Synthesis and Thermal Properties of Bio-Based Copolyesters from the Mixtures of 2,5- A nd 2,4-Furandicarboxylic Acid with Different Diols

Synthesis and Thermal Properties of Bio-Based Copolyesters from the Mixtures of 2,5- A nd 2,4-Furandicarboxylic Acid with Different Diols

Recent works highlighted how interesting are the properties of furan-based polyesters. Most of the attention has been focused on the homopolyester obtained with 2,5-furandicarboxylic acid and ethylene glycol, but other possibilities exist, which could help in tuning the final properties by carefully selecting the nature and proportion of the initial building blocks. This work reports the synthesis and properties (thermal stability, activation energy for thermal decomposition, glass transition temperature, and aptitude to crystallize) of three series of polyesters obtained by combining various amounts of two isomers of furandicarboxylic acid with different linear aliphatic diols, such as ethylene glycol, 1,3-propanediol, and 1,4-butanediol. This approach provided homopolymers and copolymers with high molecular weights, good thermal stability, broad processing windows, and a thermal behavior that can be tuned both in terms of glass transition temperature and crystallinity. In most cases, the mixtures of 2,5- A nd 2,4-isomers obtained during the Henkel disproportionation reaction can be directly used to synthetize furan-based copolyesters with good properties without the downstream processing typically performed to separate the isomers prior to polymerization, which may considerably reduce the time and costs for biomass valorization.

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Main Authors: Thiyagarajan, Shanmugam, Meijlink, Michael A., Bourdet, Aurélie, Vogelzang, Willem, Knoop, Rutger J.I., Esposito, Antonella, Dargent, Eric, Van Es, Daan S., Van Haveren, Jacco
Format: Article/Letter to editor biblioteca
Language:English
Subjects:FDCA isomers, Henkel reaction, MT-TGA, activation energy, mixing law,
Online Access:https://research.wur.nl/en/publications/synthesis-and-thermal-properties-of-bio-based-copolyesters-from-t
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spelling dig-wur-nl-wurpubs-5562322024-12-04 Thiyagarajan, Shanmugam Meijlink, Michael A. Bourdet, Aurélie Vogelzang, Willem Knoop, Rutger J.I. Esposito, Antonella Dargent, Eric Van Es, Daan S. Van Haveren, Jacco Article/Letter to editor ACS Sustainable Chemistry and Engineering 7 (2019) 22 ISSN: 2168-0485 Synthesis and Thermal Properties of Bio-Based Copolyesters from the Mixtures of 2,5- A nd 2,4-Furandicarboxylic Acid with Different Diols 2019 Recent works highlighted how interesting are the properties of furan-based polyesters. Most of the attention has been focused on the homopolyester obtained with 2,5-furandicarboxylic acid and ethylene glycol, but other possibilities exist, which could help in tuning the final properties by carefully selecting the nature and proportion of the initial building blocks. This work reports the synthesis and properties (thermal stability, activation energy for thermal decomposition, glass transition temperature, and aptitude to crystallize) of three series of polyesters obtained by combining various amounts of two isomers of furandicarboxylic acid with different linear aliphatic diols, such as ethylene glycol, 1,3-propanediol, and 1,4-butanediol. This approach provided homopolymers and copolymers with high molecular weights, good thermal stability, broad processing windows, and a thermal behavior that can be tuned both in terms of glass transition temperature and crystallinity. In most cases, the mixtures of 2,5- A nd 2,4-isomers obtained during the Henkel disproportionation reaction can be directly used to synthetize furan-based copolyesters with good properties without the downstream processing typically performed to separate the isomers prior to polymerization, which may considerably reduce the time and costs for biomass valorization. en application/pdf https://research.wur.nl/en/publications/synthesis-and-thermal-properties-of-bio-based-copolyesters-from-t 10.1021/acssuschemeng.9b04463 https://edepot.wur.nl/507250 FDCA isomers Henkel reaction MT-TGA activation energy mixing law https://creativecommons.org/licenses/by-nc-nd/4.0/ Wageningen University & Research
institution WUR NL
collection DSpace
country Países bajos
countrycode NL
component Bibliográfico
access En linea
databasecode dig-wur-nl
tag biblioteca
region Europa del Oeste
libraryname WUR Library Netherlands
language English
topic FDCA isomers
Henkel reaction
MT-TGA
activation energy
mixing law
FDCA isomers
Henkel reaction
MT-TGA
activation energy
mixing law
spellingShingle FDCA isomers
Henkel reaction
MT-TGA
activation energy
mixing law
FDCA isomers
Henkel reaction
MT-TGA
activation energy
mixing law
Thiyagarajan, Shanmugam
Meijlink, Michael A.
Bourdet, Aurélie
Vogelzang, Willem
Knoop, Rutger J.I.
Esposito, Antonella
Dargent, Eric
Van Es, Daan S.
Van Haveren, Jacco
Synthesis and Thermal Properties of Bio-Based Copolyesters from the Mixtures of 2,5- A nd 2,4-Furandicarboxylic Acid with Different Diols
description Recent works highlighted how interesting are the properties of furan-based polyesters. Most of the attention has been focused on the homopolyester obtained with 2,5-furandicarboxylic acid and ethylene glycol, but other possibilities exist, which could help in tuning the final properties by carefully selecting the nature and proportion of the initial building blocks. This work reports the synthesis and properties (thermal stability, activation energy for thermal decomposition, glass transition temperature, and aptitude to crystallize) of three series of polyesters obtained by combining various amounts of two isomers of furandicarboxylic acid with different linear aliphatic diols, such as ethylene glycol, 1,3-propanediol, and 1,4-butanediol. This approach provided homopolymers and copolymers with high molecular weights, good thermal stability, broad processing windows, and a thermal behavior that can be tuned both in terms of glass transition temperature and crystallinity. In most cases, the mixtures of 2,5- A nd 2,4-isomers obtained during the Henkel disproportionation reaction can be directly used to synthetize furan-based copolyesters with good properties without the downstream processing typically performed to separate the isomers prior to polymerization, which may considerably reduce the time and costs for biomass valorization.
format Article/Letter to editor
topic_facet FDCA isomers
Henkel reaction
MT-TGA
activation energy
mixing law
author Thiyagarajan, Shanmugam
Meijlink, Michael A.
Bourdet, Aurélie
Vogelzang, Willem
Knoop, Rutger J.I.
Esposito, Antonella
Dargent, Eric
Van Es, Daan S.
Van Haveren, Jacco
author_facet Thiyagarajan, Shanmugam
Meijlink, Michael A.
Bourdet, Aurélie
Vogelzang, Willem
Knoop, Rutger J.I.
Esposito, Antonella
Dargent, Eric
Van Es, Daan S.
Van Haveren, Jacco
author_sort Thiyagarajan, Shanmugam
title Synthesis and Thermal Properties of Bio-Based Copolyesters from the Mixtures of 2,5- A nd 2,4-Furandicarboxylic Acid with Different Diols
title_short Synthesis and Thermal Properties of Bio-Based Copolyesters from the Mixtures of 2,5- A nd 2,4-Furandicarboxylic Acid with Different Diols
title_full Synthesis and Thermal Properties of Bio-Based Copolyesters from the Mixtures of 2,5- A nd 2,4-Furandicarboxylic Acid with Different Diols
title_fullStr Synthesis and Thermal Properties of Bio-Based Copolyesters from the Mixtures of 2,5- A nd 2,4-Furandicarboxylic Acid with Different Diols
title_full_unstemmed Synthesis and Thermal Properties of Bio-Based Copolyesters from the Mixtures of 2,5- A nd 2,4-Furandicarboxylic Acid with Different Diols
title_sort synthesis and thermal properties of bio-based copolyesters from the mixtures of 2,5- a nd 2,4-furandicarboxylic acid with different diols
url https://research.wur.nl/en/publications/synthesis-and-thermal-properties-of-bio-based-copolyesters-from-t
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