Molecular design, synthesis and application of photoinitiator-Catalysts (pics) for photopolymerisation reactions (Q84200)
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Project Q84200 in Poland
| Language | Label | Description | Also known as |
|---|---|---|---|
| English | Molecular design, synthesis and application of photoinitiator-Catalysts (pics) for photopolymerisation reactions |
Project Q84200 in Poland |
Statements
3,868,900.0 zloty
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3,868,900.0 zloty
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100.0 percent
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1 March 2018
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28 February 2022
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POLITECHNIKA KRAKOWSKA IM. TADEUSZA KOŚCIUSZKI
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The main objective of the project is the design and synthesis of a new, high performance class of photoinitiators where the photoinitiator is referred to as a photoinitiator catalyst (PIC).This approach will allow creating new generation photoinitiator-catalysts which will not be used during the photopolymerization process; they will guarantee the catalytic process without the loss of efficiency during irradiation and progress of the photopolymerization; they will show perfect absorption properties adapted to modern light sources, e.g. UV-Vis-LED; importantly, they will display dual behavior through effective and efficient production in the process of initiation of the active centers such as radicals,cations or radical cations as suitable individuals initiating the photopolymerization processes; they will be dedicated to all the photopolymerization processes (cationic, free-radical, thiol-ene),as well as for controlled radical photopolymerization processes (CRP, photoATRP, PET-RAFT). (Polish)
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The main objective of the project is the design and synthesis of a new, high performance class of photoinitiators where the photoinitiator is referred to as a photoinitiator Catalyst (PIC).This approach will allow creating new generation photoinitiator-Catalysts which will not be used during the photopolymerisation process; they will guarantee the catalytic process without the loss of efficiency during irradiation and progress of the photopolymerisation; they will show perfect absorption properties adapted to modern light sources, e.g. UV-Vis-LED; importantly, they will display dual behavior through effective and efficient production in the process of initiation of the active centers such as radicals, cations or radical cations as suitable individuals initiating the photopolymerisation processes; they will be dedicated to all the photopolymerisation processes (cationic, free-radical, thiol-ene),as well as for controlled radical photopolymerisation processes (CRP, photoATRP, PET-Raft). (English)
14 October 2020
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L’objectif principal du projet est la conception et la synthèse d’une nouvelle classe de photoinitiateurs de haute performance où le photoinitiateur est désigné comme un catalyseur photoinitiateur (PIC). Cette approche permettra la création de photoinitiateurs-catalyseurs de nouvelle génération qui ne seront pas utilisés pendant le processus de photopolymérisation; ils garantiront le processus catalytique sans perte d’efficacité lors de l’irradiation et de l’avancement de la photopolymérisation; ils présenteront des propriétés d’absorption parfaites adaptées aux sources lumineuses modernes, par exemple UV-Vis-LED; il est important de noter qu’ils afficheront un double comportement à travers une production efficace et efficiente dans le processus d’initiation des centres actifs tels que radicaux,cations ou cations radicaux en tant qu’individus appropriés initiant les processus de photopolymérisation; ils seront dédiés à tous les processus de photopolymérisation (cinquante, radicale libre, thiol-ène), ainsi qu’aux processus de photopolymérisation radicaux contrôlés (CRP, photoATRP, PET-RAFT). (French)
30 November 2021
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Das Hauptziel des Projekts ist das Design und die Synthese einer neuen, leistungsstarken Klasse von Photoinitiatoren, bei der der Photoinitiator als Photoinitiatorkatalysator (PIC) bezeichnet wird.Dieser Ansatz ermöglicht die Schaffung neuer Generation Photoinitiator-Catalysts, die während des Photopolymerisationsprozesses nicht verwendet werden; Sie garantieren den katalytischen Prozess ohne Effizienzverlust während der Bestrahlung und den Fortschritt der Photopolymerisation; Sie werden perfekte Absorptionseigenschaften aufweisen, die an moderne Lichtquellen angepasst sind, z. B. UV-Vis-LED; wichtig ist, dass sie ein doppeltes Verhalten durch effektive und effiziente Produktion im Prozess der Initiierung der aktiven Zentren wie Radikale, Kationen oder radikale Kationen als geeignete Individuen zeigen, die die Photopolymerisationsprozesse initiieren; Sie werden allen Photopolymerisationsprozessen (kationisch, freiradikale, Thiolen) sowie kontrollierten radikalen Photopolymerisationsprozessen (CRP, PhotoATRP, PET-RAFT) gewidmet. (German)
7 December 2021
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Identifiers
POIR.04.04.00-00-204B/16
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