Competing ultrafast photoinduced electron transfer and intersystem crossing of [Re(CO)$$_3$$(Dmp)(His124)(Trp122)]$$^+$$ in Pseudomonas aeruginosa azurin: a nonadiabatic dynamics study

Mai, Sebastian; Menger, Maximilian F. S. J.; Marazzi, Marco; Stolba, Dario L.; Monari, Antonio; González, Leticia

doi:10.1007/s00214-020-2555-6

Cited by 20 publications

(26 citation statements)

References 57 publications

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“…The recent implementation of a LVC model within SH 37 has made the dynamical simulations of molecules with hundreds of degrees of freedom much more computationally feasible. 38 , 39 …”

Section: Methodsmentioning

confidence: 99%

Intersystem Crossing and Triplet Dynamics in an Iron(II) N-Heterocyclic Carbene Photosensitizer

et al. 2020

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The electronic excited states of the iron(II) complex [Fe II (tpy)(pyz-NHC)] 2+ [tpy = 2,2′:6′,2″-terpyridine; pyz-NHC = 1,1′-bis(2,6-diisopropylphenyl)pyrazinyldiimidazolium-2,2′-diylidene] and their relaxation pathways have been theoretically investigated. To this purpose, trajectory surface-hopping simulations within a linear vibronic coupling model including a 244-dimensional potential energy surface (PES) with 20 singlet and 20 triplet coupled states have been used. The simulations show that, after excitation to the lowest-energy absorption band of predominant metal-to-ligand charge-transfer character involving the tpy ligand, almost 80% of the population undergoes intersystem crossing to the triplet manifold in about 50 fs, while the remaining 20% decays through internal conversion to the electronic ground state in about 300 fs. The population transferred to the triplet states is found to deactivate into two different regions of the PESs, one where the static dipole moment is small and shows increased metal-centered character and another with a large static dipole moment, where the electron density is transferred from the tpy to pyz-NHC ligand. Coherent oscillations of 400 fs are observed between these two sets of triplet populations, until the mixture equilibrates to a ratio of 60:40. Finally, the importance of selecting suitable normal modes is highlighted—a choice that can be far from straightforward in transition-metal complexes with hundreds of degrees of freedom.

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“…The recent implementation of a LVC model within SH 37 has made the dynamical simulations of molecules with hundreds of degrees of freedom much more computationally feasible. 38 , 39 …”

Section: Methodsmentioning

confidence: 99%

Intersystem Crossing and Triplet Dynamics in an Iron(II) N-Heterocyclic Carbene Photosensitizer

et al. 2020

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“…The zeroth-order terms in eq 3 correspond to vertical excitation energies E n el and optional constant coupling terms η nm that are used to introduce weakly geometry-dependent couplings like spin−orbit couplings 25,28,29 or excitonic couplings. 18,19 The first-order terms in eq 4 define the widely used LVC model, 28,30−32 that mediate interactions between the diabatic states.…”

Section: Vibronic Coupling Theorymentioning

confidence: 99%

Surface Hopping Dynamics on Vibronic Coupling Models

et al. 2021

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See https://pubs.acs.org/sharingguidelines for options on how to legitimately share published articles.vibronic coupling (LVC)-parametrized potential energy surfaces.• Zobel, J. P.; Knoll, T.; González, L. Ultrafast and longtime excited-state kinetics of an NIR emissive vanadium-(III) complex. II. Elucidating triplet-to-singlet excitedstate dynamics. Chem. Sci. 2021, 12, 10791−10801. 2 This work showcases SH/LVC simulations of an open-shell metal complex with a degenerate triplet ground state for several picoseconds in f ull dimensionality.

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“…In order to overcome these challenges, we recently combined the nonadiabatic trajectory surface hopping method SHARC 24,25 with a linear vibronic coupling (LVC) approach 26 to compute the electronic potentials. 27 In this way, the photodynamics of a number of transition metal complexes have been investigated, 16,[28][29][30] where time-dependent density functional theory (TDDFT) was used to parametrize the LVC potentials. Given its positive tradeoff between accuracy and computational cost, TDDFT is likely the most popular method to study transition metal complexes 31,32 , and it has also been applied in on-the-fly surface hopping studies of other transition-metal complexes.…”

Section: Non-adiabatic Evolutionmentioning

confidence: 99%

Ultrafast and long-time excited state kinetics of an NIR-emissive vanadium(iii) complex II. Elucidating triplet-to-singlet excited-state dynamics

2021

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Competing ultrafast photoinduced electron transfer and intersystem crossing of [Re(CO)$$_3$$(Dmp)(His124)(Trp122)]$$^+$$ in Pseudomonas aeruginosa azurin: a nonadiabatic dynamics study

Cited by 20 publications

References 57 publications

Intersystem Crossing and Triplet Dynamics in an Iron(II) N-Heterocyclic Carbene Photosensitizer

Intersystem Crossing and Triplet Dynamics in an Iron(II) N-Heterocyclic Carbene Photosensitizer

Surface Hopping Dynamics on Vibronic Coupling Models

Ultrafast and long-time excited state kinetics of an NIR-emissive vanadium(iii) complex II. Elucidating triplet-to-singlet excited-state dynamics

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