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Toward Simulation of Fe(II) Low-Spin → High-Spin Photoswitching by Synergistic Spin-Vibronic Dynamics.


ABSTRACT: A new theoretical approach is presented and applied for the simulation of Fe(II) low-spin (LS, singlet, t2g6eg0) → high-spin (HS, quintet, t2g4eg2) photoswitching dynamics of the octahedral model complex [Fe(NCH)6]2+. The utilized synergistic methodology heavily exploits the strengths of complementary electronic structure and spin-vibronic dynamics methods. Specifically, we perform 3D quantum dynamics (QD) and full-dimensional trajectory surface hopping (TSH, in conjunction with a linear vibronic coupling model), with the modes for QD selected by TSH. We follow a hybrid approach which is based on the application of time-dependent density functional theory (TD-DFT) excited-state potential energy surfaces (PESs) and multiconfigurational second-order perturbation theory (CASPT2) spin-orbit couplings (SOCs). Our method delivers accurate singlet-triplet-quintet intersystem crossing (ISC) dynamics, as assessed by comparison to our recent high-level ab initio simulations and related time-resolved experimental data. Furthermore, we investigate the capability of our simulations to identify the location of ISCs. Finally, we assess the approximation of constant SOCs (calculated at the Franck-Condon geometry), whose validity has central importance for the combination of TD-DFT PESs and CASPT2 SOCs. This efficient methodology will have a key role in simulating LS → HS dynamics for more complicated cases, involving higher density of states and varying electronic character, as well as the analysis of ultrafast experiments.

SUBMITTER: Papai M 

PROVIDER: S-EPMC8908767 | biostudies-literature | 2022 Mar

REPOSITORIES: biostudies-literature

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Toward Simulation of Fe(II) Low-Spin → High-Spin Photoswitching by Synergistic Spin-Vibronic Dynamics.

Pápai Mátyás M  

Journal of chemical theory and computation 20220224 3


A new theoretical approach is presented and applied for the simulation of Fe(II) low-spin (LS, singlet, t<sub>2g</sub><sup>6</sup>e<sub>g</sub><sup>0</sup>) → high-spin (HS, quintet, t<sub>2g</sub><sup>4</sup>e<sub>g</sub><sup>2</sup>) photoswitching dynamics of the octahedral model complex [Fe(NCH)<sub>6</sub>]<sup>2+</sup>. The utilized synergistic methodology heavily exploits the strengths of complementary electronic structure and spin-vibronic dynamics methods. Specifically, we perform 3D qu  ...[more]

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