Frontispiece: Discrete Ti−O−Ti Complexes: Visible‐Light‐Activated, Homogeneous Alternative to TiO2 Photosensitisers

Novel bimetallic TiIV amine bis(phenolate) complexes were employed as photosensitisers, generating singlet oxygen following irradiation with visible light (420 nm) in a commercial flow reactor. These air‐ and moisture‐stable complexes have the potential to be developed into tuneable alternatives to...

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Veröffentlicht in:	Chemistry : a European journal 2020-08, Vol.26 (43), p.n/a
Hauptverfasser:	Behm, Kira, Fazekas, Eszter, Paterson, Martin J., Vilela, Filipe, McIntosh, Ruaraidh D.
Format:	Artikel
Sprache:	eng
Schlagworte:	amine bis(phenolate) Bimetals Chemistry flow chemistry Irradiation photosensitiser Radiation Singlet oxygen titanium Titanium dioxide
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creator	Behm, Kira Fazekas, Eszter Paterson, Martin J. Vilela, Filipe McIntosh, Ruaraidh D.
description	Novel bimetallic TiIV amine bis(phenolate) complexes were employed as photosensitisers, generating singlet oxygen following irradiation with visible light (420 nm) in a commercial flow reactor. These air‐ and moisture‐stable complexes have the potential to be developed into tuneable alternatives to ubiquitous TiO2 photosensitisers. While maintaining the ‘TiO2‐like’ core, ligand design was applied to produce highly soluble species that can be exploited in homogeneous, photocatalytic reactions. For more information, see the Full Paper by R. D. McIntosh et al. on page 9486 ff.
doi_str_mv	10.1002/chem.202084363
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subjects	amine bis(phenolate) Bimetals Chemistry flow chemistry Irradiation photosensitiser Radiation Singlet oxygen titanium Titanium dioxide
title	Frontispiece: Discrete Ti−O−Ti Complexes: Visible‐Light‐Activated, Homogeneous Alternative to TiO2 Photosensitisers
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