Upgrading the toolbox: Two-photon absorption induced cleavage of Coumarin dimers for light-based 4D printing

The use of light for shaping and changing matter is of high relevance in polymer and material science. Here, a photopolymer method is presented, which comprises the combination of 3D photo-printing at 405 nm light and subsequent modification under two-photon absorption (TPA) conditions at 532 nm lig...

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Veröffentlicht in:	Macromolecular rapid communications. 2023-09, Vol.44 (17), p.e2300217-e2300217
Hauptverfasser:	Inacker, Sebastian, Schipplick, Luca, Kahler, Philipp, Hampp, Norbert
Format:	Artikel
Sprache:	eng
Schlagworte:	Absorption Coumarin Dimers Molecular structure Photochemicals Photon absorption Photons Photopolymers Polymers Printing Smart materials Three dimensional printing
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creator	Inacker, Sebastian Schipplick, Luca Kahler, Philipp Hampp, Norbert
description	The use of light for shaping and changing matter is of high relevance in polymer and material science. Here, a photopolymer method is presented, which comprises the combination of 3D photo-printing at 405 nm light and subsequent modification under two-photon absorption (TPA) conditions at 532 nm light, adding the fourth dimension. The TPA-triggered cycloreversion reaction of an intramolecular coumarin dimer (ICD) structure occurs within the absorbing material. The 3D-printable matrix does not show any degradation under the TPA conditions. With the presented photochemical tool of TPA processes inside absorbing 3D photo-printable matrices, new possibilities for post-printing modification, e. g. for smart materials, are added. This article is protected by copyright. All rights reserved.
doi_str_mv	10.1002/marc.202300217
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subjects	Absorption Coumarin Dimers Molecular structure Photochemicals Photon absorption Photons Photopolymers Polymers Printing Smart materials Three dimensional printing
title	Upgrading the toolbox: Two-photon absorption induced cleavage of Coumarin dimers for light-based 4D printing
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