Publikation: Green‐Light Activation of Push–Pull Ruthenium(II) Complexes
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2020
Autor:innen
Moll, Johannnes
Päpcke, Ayla
Förster, Christoph
Resch‐Genger, Ute
Lochbrunner, Stefan
Heinze, Katja
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Deutsche Forschungsgemeinschaft (DFG): HE 2778/14-1
Deutsche Forschungsgemeinschaft (DFG): LO 714/11-1
Deutsche Forschungsgemeinschaft (DFG): RE 1203/23-1
Deutsche Forschungsgemeinschaft (DFG): LO 714/11-1
Deutsche Forschungsgemeinschaft (DFG): RE 1203/23-1
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Chemistry – A European Journal. Wiley. 2020, 26(30), S. 6820-6832. ISSN 0947-6539. eISSN 1521-3765. Verfügbar unter: doi: 10.1002/chem.202000871
Zusammenfassung
Synthesis, characterization, electrochemistry, and photophysics of homo‐ and heteroleptic ruthenium(II) complexes [Ru(cpmp)2]2+ (22+) and [Ru(cpmp)(ddpd)]2+ (32+) bearing the tridentate ligands 6,2’’‐carboxypyridyl‐2,2’‐methylamine‐pyridyl‐pyridine (cpmp) and N , N ’‐dimethyl‐ N , N ’‐dipyridin‐2‐ylpyridine‐2,6‐diamine (ddpd) are reported. The complexes possess one (32+) or two (22+) electron‐deficient dipyridyl ketone fragments as electron‐accepting sites enabling intraligand charge transfer (ILCT), ligand‐to‐ligand charge transfer (LL'CT) and low‐energy metal‐to‐ligand charge transfer (MLCT) absorptions. The latter peak around 544 nm (green light). Complex 22+ shows 3MLCT phosphorescence in the red to near‐infrared spectral region at room temperature in deaerated acetonitrile solution with an emission quantum yield of 1.3 % and a 3MLCT lifetime of 477 ns, whereas 32+ is much less luminescent. This different behavior is ascribed to the energy gap law and the shape of the parasitic excited 3MC state potential energy surface. This study highlights the importance of the excited‐state energies and geometries for the actual excited‐state dynamics. Aromatic and aliphatic amines reductively quench the excited state of 2 2+ paving the way to photocatalytic applications using low‐energy green light as exemplified with the green‐light‐sensitized thiol–ene click reaction.
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Fachgebiet (DDC)
540 Chemie
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luminescence, photocatalysis, photochemistry, photophysics, ruthenium
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MOLL, Johannnes, Cui WANG, Ayla PÄPCKE, Christoph FÖRSTER, Ute RESCH‐GENGER, Stefan LOCHBRUNNER, Katja HEINZE, 2020. Green‐Light Activation of Push–Pull Ruthenium(II) Complexes. In: Chemistry – A European Journal. Wiley. 2020, 26(30), S. 6820-6832. ISSN 0947-6539. eISSN 1521-3765. Verfügbar unter: doi: 10.1002/chem.202000871BibTex
@article{Moll2020-05-26Green-74264,
title={Green‐Light Activation of Push–Pull Ruthenium(II) Complexes},
year={2020},
doi={10.1002/chem.202000871},
number={30},
volume={26},
issn={0947-6539},
journal={Chemistry – A European Journal},
pages={6820--6832},
author={Moll, Johannnes and Wang, Cui and Päpcke, Ayla and Förster, Christoph and Resch‐Genger, Ute and Lochbrunner, Stefan and Heinze, Katja}
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<dcterms:abstract>Synthesis, characterization, electrochemistry, and photophysics of homo‐ and heteroleptic ruthenium(II) complexes [Ru(cpmp)<sub>2</sub>]<sup>2+</sup> (2<sup>2+</sup>) and [Ru(cpmp)(ddpd)]<sup>2+</sup> (3<sup>2+</sup>) bearing the tridentate ligands 6,2’’‐carboxypyridyl‐2,2’‐methylamine‐pyridyl‐pyridine (cpmp) and N , N ’‐dimethyl‐ N , N ’‐dipyridin‐2‐ylpyridine‐2,6‐diamine (ddpd) are reported. The complexes possess one (3<sup>2+</sup>) or two (2<sup>2+</sup>) electron‐deficient dipyridyl ketone fragments as electron‐accepting sites enabling intraligand charge transfer (ILCT), ligand‐to‐ligand charge transfer (LL'CT) and low‐energy metal‐to‐ligand charge transfer (MLCT) absorptions. The latter peak around 544 nm (green light). Complex 2<sup>2+</sup> shows <sup>3</sup>MLCT phosphorescence in the red to near‐infrared spectral region at room temperature in deaerated acetonitrile solution with an emission quantum yield of 1.3 % and a <sup>3</sup>MLCT lifetime of 477 ns, whereas 3<sup>2+</sup> is much less luminescent. This different behavior is ascribed to the energy gap law and the shape of the parasitic excited <sup>3</sup>MC state potential energy surface. This study highlights the importance of the excited‐state energies and geometries for the actual excited‐state dynamics. Aromatic and aliphatic amines reductively quench the excited state of 2 2+ paving the way to photocatalytic applications using low‐energy green light as exemplified with the green‐light‐sensitized thiol–ene click reaction.</dcterms:abstract>
<dc:contributor>Lochbrunner, Stefan</dc:contributor>
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