Molacular design, synthesis and application of Photonics (Q84200): Difference between revisions
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(Removed claim: summary (P836): The main objective of the project is the design and syntax of a new, high performance class of a motion;their will guarantee the catalytic process without the loss of efficiency and progress of the Photopolymerisation;they will demonstrate that they will be able to absorb ideas that are adapted to modern light sources, e.g.. UV-Vis-LED;importantly production in the process of determination of the active prices as radomes,they will be addressed...) |
(Created claim: summary (P836): 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 photopolyme...) |
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Property / summary | |||||||||||||||
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) | |||||||||||||||
Property / summary: 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) / rank | |||||||||||||||
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Property / summary: 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) / qualifier | |||||||||||||||
point in time: 14 October 2020
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Revision as of 12:30, 14 October 2020
Project in Poland financed by DG Regio
Language | Label | Description | Also known as |
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English | Molacular design, synthesis and application of Photonics |
Project in Poland financed by DG Regio |
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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Identifiers
POIR.04.04.00-00-204B/16
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