Photobase-catalysed anionic thiol-epoxy click photopolymerization under NIR irradiation: from deep curing to shape memory

Several unimolecular photobase generators capable of catalyzing upconversion nanoparticle-assisted anionic thiol-epoxy click photopolymerization are presented. The fabricated polymers, with a curing depth of 11.8 cm, are dual-wavelength responsive and display shape memory function, showing great pot...

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Published inPolymer chemistry Vol. 13; no. 21; pp. 348 - 352
Main Authors Huang, Yaoxin, Li, Longji, Liu, Xiaoxuan, Li, Zhiquan
Format Journal Article
LanguageEnglish
Published Cambridge Royal Society of Chemistry 31.05.2022
Subjects
Curing
Nanoparticles
Near infrared radiation
Photopolymerization
Polymer chemistry
Shape memory
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Abstract Several unimolecular photobase generators capable of catalyzing upconversion nanoparticle-assisted anionic thiol-epoxy click photopolymerization are presented. The fabricated polymers, with a curing depth of 11.8 cm, are dual-wavelength responsive and display shape memory function, showing great potential for the construction of smart medical devices and robots. A photobase generator absorbing upconversion fluorescence can efficiently catalyze anionic thiol-epoxy click photopolymerization under 980 nm NIR light irradiation.
AbstractList Several unimolecular photobase generators capable of catalyzing upconversion nanoparticle-assisted anionic thiol-epoxy click photopolymerization are presented. The fabricated polymers, with a curing depth of 11.8 cm, are dual-wavelength responsive and display shape memory function, showing great potential for the construction of smart medical devices and robots. A photobase generator absorbing upconversion fluorescence can efficiently catalyze anionic thiol-epoxy click photopolymerization under 980 nm NIR light irradiation.
Several unimolecular photobase generators capable of catalyzing upconversion nanoparticle-assisted anionic thiol-epoxy click photopolymerization are presented. The fabricated polymers, with a curing depth of 11.8 cm, are dual-wavelength responsive and display shape memory function, showing great potential for the construction of smart medical devices and robots.
Author Huang, Yaoxin
Li, Zhiquan
Liu, Xiaoxuan
Li, Longji
AuthorAffiliation Guangdong Laboratory of Chemistry and Fine Chemical Industry Jieyang Center
School of Materials and Energy
Guangdong University of Technology
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Snippet Several unimolecular photobase generators capable of catalyzing upconversion nanoparticle-assisted anionic thiol-epoxy click photopolymerization are presented....
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StartPage 348
SubjectTerms Curing
Nanoparticles
Near infrared radiation
Photopolymerization
Polymer chemistry
Shape memory
Title Photobase-catalysed anionic thiol-epoxy click photopolymerization under NIR irradiation: from deep curing to shape memory
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