Blocked Phosphates as Photolatent Catalysts for Dynamic Photopolymer Networks

Carina Dertnig; Gema Guedes de la Cruz; Dmytro Neshchadin; Sandra Schlögl; Thomas Griesser

doi:10.1002/anie.202215525

Blocked Phosphates as Photolatent Catalysts for Dynamic Photopolymer Networks

Carina Dertnig, Gema Guedes de la Cruz, Dmytro Neshchadin, Sandra Schlögl^*, Thomas Griesser^*

^*Korrespondierende/r Autor/-in für diese Arbeit

Publikation: Beitrag in einer Fachzeitschrift › Artikel › Begutachtung

Abstract

While latent catalysts are a well-established strategy for initiating and controlling the rate of polymerization reactions, their use in dynamic polymer networks is still in its infancy. The ideal latent catalyst should be thermally stable and release a highly active species in response to an external trigger. Here, we have synthesized a temperature resistant (>200 °C) organic phosphate with a photolabile o-nitrobenzyl protecting group that can be cleaved by UV light. Introduced in a visible light curable thiol-click photopolymer, the sequence-dependent λ-orthogonality of the curing and cleavage enables an efficient network formation at 451 nm, without premature release of the catalyst. Once cured, irradiation at 372 nm spatiotemporally activates the phosphate, which catalyzes transesterifications at elevated temperature. The formed catalyst has no effect on the thermal stability of the polymeric network and allows the activation of bond exchange reactions in selected domains of printed 3D objects.

Originalsprache	englisch
Aufsatznummer	e202215525
Fachzeitschrift	Angewandte Chemie - International Edition
Jahrgang	62
Ausgabenummer	10
Frühes Online-Datum	2022
DOIs	https://doi.org/10.1002/anie.202215525
Publikationsstatus	Veröffentlicht - 1 März 2023

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Chemie (insg.)

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abstract = "While latent catalysts are a well-established strategy for initiating and controlling the rate of polymerization reactions, their use in dynamic polymer networks is still in its infancy. The ideal latent catalyst should be thermally stable and release a highly active species in response to an external trigger. Here, we have synthesized a temperature resistant (>200 °C) organic phosphate with a photolabile o-nitrobenzyl protecting group that can be cleaved by UV light. Introduced in a visible light curable thiol-click photopolymer, the sequence-dependent λ-orthogonality of the curing and cleavage enables an efficient network formation at 451 nm, without premature release of the catalyst. Once cured, irradiation at 372 nm spatiotemporally activates the phosphate, which catalyzes transesterifications at elevated temperature. The formed catalyst has no effect on the thermal stability of the polymeric network and allows the activation of bond exchange reactions in selected domains of printed 3D objects.",

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note = "Funding Information: We would like to thank Dipl.‐Ing. Anna‐Katharina Hofer from the Chair of Structural and Functional Ceramics, Montanuniversitaet Leoben, for the good collaboration and sharing her expertise regarding the 3D printer. The research work was performed at Montanuniversitaet Leoben with contributions by the Polymer Competence Center Leoben GmbH (PCCL, Austria) within the COMET‐Module project “Chemitecture” (project‐no.: 21647048) of the COMET‐program of the Federal Ministry for Climate Action, Environment, Energy, Mobility, Innovation and Technology and the Federal Ministry for Digital Economic Affairs. The PCCL is funded by the Austrian Government and the State Governments of Styria, Upper and Lower Austria. Publisher Copyright: {\textcopyright} 2022 The Authors. Angewandte Chemie International Edition published by Wiley-VCH GmbH.",

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AU - Griesser, Thomas

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AB - While latent catalysts are a well-established strategy for initiating and controlling the rate of polymerization reactions, their use in dynamic polymer networks is still in its infancy. The ideal latent catalyst should be thermally stable and release a highly active species in response to an external trigger. Here, we have synthesized a temperature resistant (>200 °C) organic phosphate with a photolabile o-nitrobenzyl protecting group that can be cleaved by UV light. Introduced in a visible light curable thiol-click photopolymer, the sequence-dependent λ-orthogonality of the curing and cleavage enables an efficient network formation at 451 nm, without premature release of the catalyst. Once cured, irradiation at 372 nm spatiotemporally activates the phosphate, which catalyzes transesterifications at elevated temperature. The formed catalyst has no effect on the thermal stability of the polymeric network and allows the activation of bond exchange reactions in selected domains of printed 3D objects.

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Blocked Phosphates as Photolatent Catalysts for Dynamic Photopolymer Networks

Abstract

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