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DDC: 540 × Subject: DFT calculation × Subject: Ligands ×

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Now showing 1 - 2 of 2
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    Metal–ligand cooperative activation of nitriles by a ruthenium complex with a de-aromatized PNN pincer ligand
    (London : Soc., 2016) Eijsink, Linda E.; Perdriau, Sébastien C. P.; de Vries, Johannes G.; Otten, Edwin
    The pincer complex (PNN)RuH(CO), with a de-aromatized pyridine in the ligand backbone, is shown to react with nitriles in a metal–ligand cooperative manner. This leads to the formation of a series of complexes with new Ru–N(nitrile) and C(ligand)–C(nitrile) bonds. The initial nitrile cycloaddition products, the ketimido complexes 3, have a Brønsted basic (nitrile-derived) Ru–N fragment. This is able to deprotonate a CH2 side-arm of the pincer ligand to give ketimine complexes (4) with a de-aromatized pyridine backbone. Alternatively, the presence of a CH2 group adjacent to the nitrile functionality can lead to tautomerization to an enamido complex (5). Variable-temperature NMR studies and DFT calculations provide insight in the relative stability of these compounds and highlight the importance of their facile interconversion in the context of subsequent nitrile transformations.
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    Modified bibenzimidazole ligands as spectator ligands in photoactive molecular functional Ru-polypyridine units? Implications from spectroscopy
    (Cambridge : RSC, 2014) Meyer-Ilse, J.; Bauroth, S.; Bräutigam, M.; Schmitt, M.; Popp, J.; Beckert, R.; Rockstroh, N.; Pilz, T.D.; Monczak, K.; Heinemann, F.W.; Rau, S.; Dietzek, B.
    The photophysical properties of Ruthenium-bipyridine complexes bearing a bibenzimidazole ligand were investigated. The nitrogens on the bibenzimidazole-ligand were protected, by adding either a phenylene group or a 1,2-ethandiyl group, to remove the photophysical dependence of the complex on the protonation state of the bibenzimidazole ligand. This protection results in the bibenzimidazole ligand contributing to the MLCT transition, which is experimentally evidenced by (resonance) Raman scattering in concert with DFT calculations for a detailed mode assignment in the (resonance) Raman spectra.