Issue 2, 2016

TD-DFT study of the light-induced spin crossover of Fe(iii) complexes

Abstract

Two light-induced spin-crossover Fe(III) compounds have been studied with time-dependent density functional theory (TD-DFT) to investigate the deactivation mechanism and the role of the ligand-field states as intermediates in this process. The B3LYP* functional has previously shown its ability to accurately describe (light-induced) spin-crossover in Fe(II) complexes. Here, we establish its performance for Fe(III) systems using [Fe(qsal)2]+ (Hqsal = 2-[(8-quinolinylimino)methyl]phenol) and [Fe(pap)2]+ (Hpap = 2-(2-pyridylmethyleneamino)phenol) as test cases comparing the B3LYP* results to experimental information and to multiconfigurational wave function results. In addition to rather accurate high spin (HS) and low spin (LS) state geometries, B3LYP* also predicts ligand-to-metal charge transfer (LMCT) states with large oscillator strength in the energy range where the UV-VIS spectrum shows an intense absorption band, whereas optically allowed π–π* excitations on the ligands were calculated at higher energy. Subsequently, we have generated a two-dimensional potential energy surface of the HS and LS states varying the Fe–N and Fe–O distances. LMCT and metal centered (MC) excited states were followed along the approximate minimal energy path that connects the minima of the HS and LS on this surface. The 2LMCT state has a minimum in the same region as the initial LS state, where we also observe a crossing with the intermediate spin (IS) state. Upon the expansion of the coordination sphere of the Fe(III) ion, the IS state crosses with the HS state and further expansion of the coordination sphere leads to the excited spin state trapping as observed in experiment. The calculation of the intersystem crossing rates reveals that the deactivation from 2LMCT → IS → HS competes with the 2LMCT → IS → LS pathway, in line with the low efficiency encountered in experiments.

Graphical abstract: TD-DFT study of the light-induced spin crossover of Fe(iii) complexes

Supplementary files

Article information

Article type
Paper
Submitted
30 Oct 2015
Accepted
01 Dec 2015
First published
02 Dec 2015

Phys. Chem. Chem. Phys., 2016,18, 1233-1244

Author version available

TD-DFT study of the light-induced spin crossover of Fe(III) complexes

S. Saureu and C. de Graaf, Phys. Chem. Chem. Phys., 2016, 18, 1233 DOI: 10.1039/C5CP06620D

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