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Tuning Excited State Electron Transfer in Fe Tetracyano-Polypyridyl Complexes (1910.13695v1)

Published 30 Oct 2019 in physics.chem-ph

Abstract: We have investigated photoinduced intramolecular electron transfer dynamics following metal-to-ligand charge-transfer (MLCT) excitation of [Fe(CN)$_4$(2,2'-bipyridine)]${2-}$ (1), [Fe(CN)$_4$(2,3-bis(2-pyridyl)pyrazine)]${2-}$ (2) and [Fe(CN)$_4$(2,2'-bipyrimidine)]${2-}$ (3) complexes in various solvents with static and time-resolved UV-visible absorption spectroscopy and Fe 2p3d resonant inelastic X-ray scattering. We observe $3$MLCT lifetimes from 180 fs to 67 ps over a wide range of MLCT energies in different solvents by utilizing the strong solvatochromism of the complexes. Intramolecular electron transfer lifetimes governing $3$MLCT relaxation increase monotonically and (super)exponentially as the $3$MLCT energy is decreased in 1 and 2 by changing the solvent. This behavior can be described with non-adiabatic classical Marcus electron transfer dynamics along the indirect $3$MLCT->$3$MC pathway, where the $3$MC is the lowest energy metal-centered (MC) excited state. In contrast, the $3$MLCT lifetime in 3 changes non-monotonically and exhibits a maximum. This qualitatively different behaviour results from direct electron transfer from the $3$MLCT to the electronic ground state (GS). This pathway involves nuclear tunnelling for the high-frequency polypyridyl skeleton mode ($\hbar\omega$ = 1530 cm${-1}$), which is more displaced for 3 than for either 1 or 2, therefore making the direct pathway significantly more efficient in 3. To our knowledge, this is the first observation of an efficient $3$MLCT->GS relaxation pathway in an Fe polypyridyl complex. Our study suggests that further extending the MLCT state lifetime requires (1) lowering the $3$MLCT state energy with respect to the $3$MC state and (2) suppressing the intramolecular distortion of the electron-accepting ligand in the $3$MLCT excited state to suppress the rate of direct $3$MLCT->GS electron transfer.

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