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Preparation of Renewable Epoxy-Amine Resins With Tunable Thermo-Mechanical Properties, Wettability and Degradation Abilities From Lignocellulose- and Plant Oils-Derived Components.


ABSTRACT: One-hundred percent renewable triphenol-GTF-(glycerol trihydroferulate) and novel bisphenols-GDFx-(glycerol dihydroferulate) were prepared from lignocellulose-derived ferulic acid and vegetal oil components (fatty acids and glycerol) using highly selective lipase-catalyzed transesterifications. Estrogenic activity tests revealed no endocrine disruption for GDFx bisphenols. Triethyl-benzyl-ammonium chloride (TEBAC) mediated glycidylation of all bis/triphenols, afforded innocuous bio-based epoxy precursors GDFxEPO and GTF-EPO. GDFxEPO were then cured with conventional and renewable diamines, and some of them in presence of GTF-EPO. Thermo-mechanical analyses (TGA, DSC, and DMA) and degradation studies in acidic aqueous solutions of the resulting epoxy-amine resins showed excellent thermal stabilities (T d5% = 282-310°C), glass transition temperatures (T g ) ranging from 3 to 62°C, tunable tan ?, and tunable degradability, respectively. It has been shown that the thermo-mechanical properties, wettability, and degradability of these epoxy-amine resins, can be finely tailored by judiciously selecting the diamine nature, the GTF-EPO content, and the fatty acid chain length.

SUBMITTER: Hollande L 

PROVIDER: S-EPMC6445855 | biostudies-literature | 2019

REPOSITORIES: biostudies-literature

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Preparation of Renewable Epoxy-Amine Resins With Tunable Thermo-Mechanical Properties, Wettability and Degradation Abilities From Lignocellulose- and Plant Oils-Derived Components.

Hollande Louis L   Do Marcolino Izia I   Balaguer Patrick P   Domenek Sandra S   Gross Richard A RA   Allais Florent F  

Frontiers in chemistry 20190327


One-hundred percent renewable triphenol-GTF-(glycerol trihydroferulate) and novel bisphenols-GDF<sub>x</sub>-(glycerol dihydroferulate) were prepared from lignocellulose-derived ferulic acid and vegetal oil components (fatty acids and glycerol) using highly selective lipase-catalyzed transesterifications. Estrogenic activity tests revealed no endocrine disruption for GDF<sub>x</sub> bisphenols. Triethyl-benzyl-ammonium chloride (TEBAC) mediated glycidylation of all bis/triphenols, afforded innoc  ...[more]

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