6533b852fe1ef96bd12aaa48

RESEARCH PRODUCT

X-ray study of the light-induced metastable state of a spin-crossover compound

Joachim KuszHartmut SpieringPhilipp Gütlich

subject

DiffractionNuclear magnetic resonanceSpin statesChemistrySpin crossoverExcited stateMetastabilityIsostructuralSingle crystalMolecular physicsGeneral Biochemistry Genetics and Molecular BiologyLIESST

description

Iron(II) complexes exhibiting thermal spin crossover may be converted from the1A1low-spin (LS) state to the5T2high-spin (HS) state by irradiation with green light (light-induced excited spin-state trapping, LIESST). The lifetime of the metastable LIESST state may be sufficiently long for X-ray diffraction study. The lattice parameters of a single crystal of [Fe(ptz)6](BF4)2(ptz = propyltetrazole) were measured between 300 and 10 K, while the crystal changed from the HS to the LS state near 135 K. Using the green light (514 nm) of an argon-ion laser, the crystal was quantitatively converted to the metastable LIESST state at 10 K; its lattice parameters were measured up to 50 K, at which point the LIESST state begins to decay on a minute timescale. The change of the lattice parameters can be interpreted by a superposition of a normal temperature dependence, for which the isostructural zinc compound served as a reference, and an almost temperature-independent part which is proportional to the fraction of molecules in the HS state.

yearjournalcountryeditionlanguage
2000-04-01Journal of Applied Crystallography
https://doi.org/10.1107/s0021889899014739