Avoiding Oxygen Removal for Photochemical Reactions – towards Water as the Solvent

Oxygen removing protocols have long been the standard approach to perform photoreactions. By encapsulating photosensitizers and reactants in tailored supramolecular assemblies, preservation of photoreactivity even in the presence of molecular oxygen can be observed. Herein, we showcase some of the s...

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Veröffentlicht in:	ChemPhotoChem 2024-05, Vol.8 (5), p.n/a
Hauptverfasser:	Pölderl, Gianna, Næsborg, Line
Format:	Artikel
Sprache:	eng
Schlagworte:	Biocatalysis Deep Eutectic Solvents Hydrogels Micelles Oxygen Tolerance Photochemical Synthesis
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creator	Pölderl, Gianna Næsborg, Line
description	Oxygen removing protocols have long been the standard approach to perform photoreactions. By encapsulating photosensitizers and reactants in tailored supramolecular assemblies, preservation of photoreactivity even in the presence of molecular oxygen can be observed. Herein, we showcase some of the solutions that could render time‐consuming oxygen removal redundant in photochemical synthesis. A focus has been dedicated to aqueous solutions of supramolecular assemblies as potential reaction media. They present an attractive solution possibly useful not only for synthetic photochemical transformations, but also for water purification, bio‐applications or biocatalysis. The included media are membranes, hydrogels, deep eutectic solvents and peptide assemblies. By encapsulating photosensitizers and reactants in tailored supramolecular assemblies, preservation of photoreactivity even in the presence of molecular oxygen can be observed. The focus of this concept article has been dedicated to aqueous solutions of supramolecular assemblies as potential reaction media as they present an underdeveloped and attractive solution for photochemical reaction development.
doi_str_mv	10.1002/cptc.202300340
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subjects	Biocatalysis Deep Eutectic Solvents Hydrogels Micelles Oxygen Tolerance Photochemical Synthesis
title	Avoiding Oxygen Removal for Photochemical Reactions – towards Water as the Solvent
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