Paper
Thiol-ene coupling: An efficient tool for the synthesis of new biobased aliphatic amines for epoxy curing
Published Oct 23, 2014 · Adrien Cornille, V. Froidevaux, C. Negrell
Polymer
Q1 SJR score
19
Citations
0
Influential Citations
Abstract
Abstract hidden due to publisher request; this does not indicate any issues with the research. Click the full text link above to read the abstract and view the original source.
Study Snapshot
Thiol-ene coupling effectively synthesizes reactive primary and multi-functional amines from renewable resources for epoxy curing, with high yield and mild conditions.
PopulationOlder adults (50-71 years)
Sample size24
MethodsObservational
OutcomesBody Mass Index projections
ResultsSocial networks mitigate obesity in older groups.
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References
Impact of aliphatic amine comonomers on DGEBA epoxy network properties
The DGEBA/D230 network shows greater flexibility, maximum impact energy, higher fracture toughness, and lower yield stress than DGEBA/TETA and DGEBA/TEPA networks, with the highest storage modulus and tan intensity.
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Polymer Engineering and Science
Lipidic polyols using thiol‐ene/yne strategy for crosslinked polyurethanes
The TEC/TYC strategy effectively produces lipidic polyols with high glass transitions and thermal stability, enabling the production of plant oil-based polyurethane materials with consistent thermal stability.
2014·25citations·Phuoc Dien Pham et al.·Journal of Polymer Science Part A
Journal of Polymer Science Part A
Vanillin, a promising biobased building-block for monomer synthesis
Vanillin-derived biobased monomers can be used in epoxy, polyester, polyurethanes, and NIPU polymer synthesis, offering a promising renewable building-block for polymer chemistry.
2014·323citations·Maxence Fache et al.·Green Chemistry
Green Chemistry
High refractive index polyvinylsulfide materials prepared by selective radical mono-addition thiol–yne chemistry
Selective radical mono-addition thiol-yne chemistry produces high-refractive index polyvinyl sulfide materials with high optical transparency and low dispersions, making them ideal for light reflection and chromatic dispersion applications.
2014·51citations·R. Pötzsch et al.·Polymer Chemistry
Polymer Chemistry
Sequential thiol click reactions: formation of ternary thiourethane/thiol-ene networks with enhanced thermal and mechanical properties.
Incorporating (thio)urethanes into thiol-ene networks enhances thermal and mechanical properties, while decreasing cross-link density, making them a promising material for thermosetting applications.
2014·29citations·O. McNair et al.·ACS applied materials & interfaces
ACS applied materials & interfaces
Citations
Phloroglucinol-Based Antimicrobial Shape-Memory Photopolymers for Microimprint Lithography
Phloroglucinol-based biobased photopolymers with 1,4-cyclohexanedimethanol show the fastest photocuring and highest flexibility, making them potential candidates for functional coatings, biomedical devices, and flexible electronics.
2024·0citations·Ausrine Pabricaite et al.·ACS Omega
ACS Omega
Sustainable polymers from renewable resources through click and multicomponent reactions
Click chemistry and multicomponent reactions can create sustainable polymers from renewable resources, offering high reactivity, efficiency, and low waste generation.
2024·10citations·Serter Luleburgaz et al.·European Polymer Journal
European Polymer Journal
Click chemistry for the synthesis of biobased polymers and networks derived from vegetable oils
Click chemistry has revolutionized the synthesis of sustainable biobased polymers and networks from vegetable oils, offering a green chemistry solution for sustainable materials.
2021·42citations·Khantutta-Kim Tremblay-Parrado et al.·Green Chemistry
Green Chemistry
Epoxy thermosets and materials derived from bio-based monomeric phenols: Transformations and performances
Bio-based epoxy thermosets from monomeric phenols show potential for sustainable materials, with unique properties and challenges in development.
2020·121citations·Jintao Wan et al.·Progress in Polymer Science
Progress in Polymer Science
Nucleophilic Thiol-yne reaction in Macromolecular Engineering: From synthesis to applications
Nucleophilic thiol-yne reactions enable rapid polymerization and unique hydrogel construction, offering a promising approach for efficient, high-yield synthetic polymer chemistry.
2020·33citations·Ozgun Daglar et al.·European Polymer Journal
European Polymer Journal