Manipulating electron transfer – the influence of substituents on novel copper guanidine quinolinyl complexes
Autor: | Joshua Heck, Fabian Metz, Sören Buchenau, Melissa Teubner, Benjamin Grimm-Lebsanft, Thomas P. Spaniol, Alexander Hoffmann, Michael A. Rübhausen, Sonja Herres-Pawlis |
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Rok vydání: | 2022 |
Předmět: | |
Zdroj: | Chemical science 13(28), 8274-8288 (2022). doi:10.1039/D2SC02910C |
ISSN: | 2041-6539 2041-6520 |
Popis: | Chemical science 13(28), 8274 - 8288 (2022). doi:10.1039/D2SC02910C Copper guanidine quinolinyl complexes act as good entatic state models due to their distorted structures leading to a high similarity between Cu(I) and Cu(II) complexes. For a better understanding of the entatic state principle regarding electron transfer a series of guanidine quinolinyl ligands with different substituents in the 2- and 4-position were synthesized to examine the influence on the electron transfer properties of the corresponding copper complexes. Substituents with different steric or electronic influences were chosen. The effects on the properties of the copper complexes were studied applying different experimental and theoretical methods. The molecular structures of the bis(chelate) copper complexes were examined in the solid state by single-crystal X-ray diffraction and in solution by X-ray absorption spectroscopy and density functional theory (DFT) calculations revealing a significant impact of the substituents on the complex structures. For a better insight natural bond orbital (NBO) calculations of the ligands and copper complexes were performed. The electron transfer was analysed by the determination of the electron self-exchange rates following Marcus theory. The obtained results were correlated with the results of the structural analysis of the complexes and of the NBO calculations. Nelsen's four-point method calculations give a deeper understanding of the thermodynamic properties of the electron transfer. These studies reveal a significant impact of the substituents on the properties of the copper complexes. Published by RSC, Cambridge |
Databáze: | OpenAIRE |
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