Martin Presselt scite author profile

Photoinduced electron-transfer processes within a precatalyst for intramolecular hydrogen evolution [(tbbpy)(2)Ru(tpphz)PdCl(2)](2+) (RuPd; tbbpy = 4,4'-di-tert-butyl-2,2'-bipyridine, tpphz = tetrapyrido[3,2-a:2',3'c:3'',2'',-h:2''',3'''-j]phenazine) have been studied by resonance Raman and ultrafast time-resolved absorption spectroscopy. By comparing the photophysics of the [(tbbpy)(2)Ru(tpphz)](2+) subunit Ru with that of the supramolecular catalyst RuPd, the individual electron-transfer steps are assigned to kinetic components, and their dependence on solvent is discussed. The resonance Raman data reveal that the initial excitation of the molecular ensemble is spread over the terminal tbbpy and the tpphz ligands. The subsequent excited-state relaxation of both Ru and RuPd on the picosecond timescale involves formation of the phenazine-centered intraligand charge-transfer state, which in RuPd precedes formation of the Pd-reduced state. The photoreaction in the heterodinuclear supramolecular complex is completed on a subnanosecond timescale. Taken together, the data indicate that mechanistic investigations must focus on potential rate-determining steps other than electron transfer between the photoactive center and the Pd unit. Furthermore, structural variations should be directed towards increasing the directionality of electron transfer and the stability of the charge-separated states.

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Photochemical Fate: The First Step Determines Efficiency of H₂ Formation with a Supramolecular Photocatalyst

Tschierlei¹,

Karnahl

Presselt³

et al. 2010

Angew Chem Int Ed

171

174

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Molecular Structures and Absorption Spectra Assignment of Corrole NH Tautomers

et al. 2014

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The individual absorption spectra of the two NH tautomers of 10-(4,6-dichloropyrimidin-5-yl)-5,15-dimesitylcorrole are assigned on the basis of the Gouterman four-orbital model and a quantum chemical TD-DFT study. The assignment indicates that the red-shifted T1 tautomer is the one with protonated pyrrole nitrogen atoms N(21), N(22) and N(23), whereas the blue-shifted T2 tautomer has pyrrole nitrogen atoms N(21), N(22) and N(24) protonated. A wave-like nonplanar distortion of the macrocycle in the ground state is found for both NH tautomers, with the wave axis going through the pyrroles containing N(22) and N(24). The 7C plane determined by the least-squares distances to the carbon atoms C1, C4, C5, C6, C9, C16, and C19 is suggested as a mean corrole macrocycle plane for the analysis of out-of-plane distortions. The magnitude of these distortions is distinctly different for the two NH tautomers, leading to substantial perturbations of their acid-base properties, which are rationalized by the interplay of the degree of out-of-plane distortion of the macrocycle as a whole and the tendency of the pyrrole nitrogen atoms toward pyramidalization, with the former leading to a basicity increase whereas the latter enhances the acidity.

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Martin Presselt

Photophysics of an Intramolecular Hydrogen‐Evolving Ru–Pd Photocatalyst

Photochemical Fate: The First Step Determines Efficiency of H₂ Formation with a Supramolecular Photocatalyst

Molecular Structures and Absorption Spectra Assignment of Corrole NH Tautomers

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Martin Presselt

Photophysics of an Intramolecular Hydrogen‐Evolving Ru–Pd Photocatalyst

Photochemical Fate: The First Step Determines Efficiency of H2 Formation with a Supramolecular Photocatalyst

Molecular Structures and Absorption Spectra Assignment of Corrole NH Tautomers

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Photochemical Fate: The First Step Determines Efficiency of H₂ Formation with a Supramolecular Photocatalyst