Light-induced spin-state switching in Fe(II) spin-crossover complexes with thiazole-based chelating ligands.
Minyoung JoBotagoz AmanyazovaSandugash YergeshbayevaMiguel Gakiya-TeruyaÖkten ÜngörPaola Lopez RiveraNatalie JenEvgeny LukyanenkoAlexander V KurkinRakhmetulla ErkasovMark W MeiselAndreas HauserPradip ChakrabortyMichael ShatrukPublished in: Dalton transactions (Cambridge, England : 2003) (2024)
Homoleptic complexes [Fe(4bt) 3 ](ClO 4 ) 2 (1), [Fe(2bt) 3 ](ClO 4 ) 2 (2), and [Fe(3tpH) 3 ](ClO 4 ) 2 (3) were obtained by a reaction between the Fe(II) precursor salt and the corresponding thiazole-based bidentate ligand (L = 4bt = 4,4'-bithiazole, 2bt = 2,2'-bithiazole, 3tpH = 3-(thiazol-2-yl)pyrazole). X-ray crystal structure determination revealed crystallization of solvent-free complex 1, a solvate 2·MeOH, and a co-crystal 3·2(3tpH). The crystal packing of all these complexes is dominated by one-dimensional interactions between the [Fe(L) 3 ] 2+ cations. These interactions are stronger in 2·MeOH and 3·2(3tpH), leading to cooperative and slightly hysteretic transitions between the high-spin and low-spin electronic configurations at ∼235 K and 159 K, respectively. In contrast, weaker intermolecular interactions in 1 result in a gradual spin crossover above 300 K, with the maximum fraction of the HS state ∼25% achieved at 400 K. Complexes 2 and 3·2(3tpH) exhibit light-induced excited spin state trapping (LIESST) under irradiation with white light or a 532 nm laser at 5 K. After the photoexcitation, the trapped metastable HS state relaxes to the ground LS state with the average relaxation temperature of 81 K and 68 K, respectively. Examination of the relaxation dynamics by optical absorption spectroscopy on a single crystal of 3·2(3tpH) revealed the sigmoidal shape of the relaxation curves at lower temperatures, attributed to cooperative effects, as well as a plateau at ∼10% of the HS fraction at intermediate temperatures, hinting at a more complex mechanism for the relaxation of the LIESST phase in this material.
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