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  Torres, J.; Thakur, S.; Ossinger, S.; Kumberg, I.; Golias, E.; Trommer, C.W.A.; Hadjadj, S.E.; Walter, M.; Gördes, J.; Grunwald, J.; Hosseinifar, R.; Luo, C.; Kipgen, L.; Radu, F.; Tuczek, F.; Kuch, W.: Mono- and sub-monolayer films of a high T1/2 spin-crossover molecule on HOPG: temperature- and light-driven spin-state transition. Journal of Physics: Condensed Matter 37 (2025), p. 315001/1-13

10.1088/1361-648x/adf0d2
Open Access Version

Abstract:
We investigated the properties of the [Fe{H2B(pz)(pypz)}2] spin-crossover complex deposited on highly oriented pyrolytic graphite (HOPG) by x-ray absorption spectroscopy in the temperature range from 10 to 350 K for sample thicknesses from 0.9(1) to 1.3(2) ML. The highest temperature at which light can excite the system to a long-lived metastable high-spin (HS) state (TLIESST) and the temperature at which a thermal spin transition occurs (T1/2) for the thin film samples are found as about 45 and 325 K, respectively, in agreement with the bulk values. The bulk phase has previously been studied by magnetic susceptibility measurements where it was found that two different polymorphic modifications exist. These findings suggest a potential correlation between TLIESST and the high T1/2 from the different film thicknesses of the tridentate [Fe{H2B(pz)(pypz)}2] spin-crossover molecule, with thinner samples exhibiting lower T1/2 values. Finally, the highest HS fraction achieved for [Fe{H2B(pz)(pypz)}2] is 0.77 for samples of 0.9(1) and 1.1(1) ML on HOPG at 10 K and constant light irradiation.