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W2068707989 abstract "In the Ni-substituted chlorophylls, an ultrafast (< 60 fs) deactivation channel is created, which is not present in Ni-porphyrins. This observation prompted us to investigate in detail the mechanism of excitation-to-heat conversion in Ni-substituted chlorophylls, experimentally, using time-resolved laser-induced optoacoustic spectroscopy, and theoretically, using group theory approach. The Ni-substituted chlorophylls show exceptional photostability and the optoacoustic measurements confirm the prompt and very efficient (100%) excitation-into-heat conversion in these complexes. Considering their excellent spectral properties and the loss-free excitation-into-heat conversion they are likely to become a new class of versatile photocalorimetric references. The curious features of the Ni-substituted chlorophylls originate from the symmetry of a ligand field created in the central cavity. The central NNi2 + bonds, formed via the donation of two electrons from each of the sp2 orbitals of two central nitrogens to an empty s−dx2−y2 hybrid centered on Ni2 +, have a considerable covalent character. The extreme rate of excited state relaxation is then not due to a ladder of the metal centered d-states, often invoked in metalloporphyrins, but seems to result from a peculiar topology of the potential energy surface (a saddle-shaped crossing) due to the covalent character of the NNi2 + bonds. This is confirmed by a strong 0 → 0 character of electronic transitions in these complexes indicating a similarity of their equilibrium geometries in the ground (S0) and the excited states (both QX and QY). The excitation energy is very efficiently converted into molecular vibrations and dissipated as heat, involving the central Ni2 +. These Ni-substituted pigments pose a fine exemplification of symmetry control over properties of excited states of transition metal complexes." @default.
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W2068707989 date "2013-01-01" @default.
W2068707989 modified "2023-10-16" @default.
W2068707989 title "Molecular symmetry determines the mechanism of a very efficient ultrafast excitation-to-heat conversion in Ni-substituted chlorophylls" @default.
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W2068707989 doi "https://doi.org/10.1016/j.bbabio.2012.09.007" @default.
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