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Thermal- and photoinduced spin-state switching in an unprecedented three-dimensional bimetallic coordination polymer

Niel, V.; Thompson, A.L.; Goeta, A.E.; Enachescu, C.; Hauser, A.; Galet, A.; Munoz, M.C.; Real, J.A.

Authors

V. Niel

A.L. Thompson

A.E. Goeta

C. Enachescu

A. Hauser

A. Galet

M.C. Munoz

J.A. Real



Abstract

The compound {Fe(pmd)[Ag(CN)(2)][Ag-2(CN)(3)]} (pmd = pyrimidine) was synthesized and characterized. Magnetic, calorimetric and single crystal visible spectroscopic studies demonstrate the occurrence of a two-step high-spin (HS) = low-spin (LS) transition. The critical temperatures are, T,, = 185 and T,, = 148 K. Each step involves similar to 50% of the iron centers, with the low-temperature step showing a hysteresis of 2.5 K. The enthalpy and entropy variations associated with the two steps are Delta H-1 = 3.6 +/- 0.4 kJ mol(-1) and Delta S-1 = 19.5 +/- 3 J K-1 mol(-1); Delta H-2 = 4.8 +/- 10.4 kJ mol(-1) and Delta S-2 = 33.5 +/- 3 JK(-1) mol(-1). Photomagnetic and visible spectroscopy experiments show that below 50 K, where the LS state is the thermodynamically stable state, the compound can be switched quantitatively to the HS state using green-red light (550-650 nm). HS-to-LS relaxation experiments in the dark at temperatures between 15 and 55 K show that the relaxation takes place via a two-step cooperative process, which was analyzed in the context of the mean field theory. ne crystal structure has been studied at 290, 220, 170, 90 and 30 K together with 30 K after irradiation. ne compound adopts monoclinic symmetry (P2(l)/c, Z = 16) at all temperatures. There are five [FeN6] pseudo-octahedral sites linked by pmd, [Ag(CN)(2)](-) and [Ag2(CN)(3)](-) bridging ligands to form an unprecedented three-dimensional (6,6) topology. The structural analysis allows for an understanding of the microscopic mechanism of the two-step behavior of the thermally induced spin transition as well as the corresponding relaxation of the photoexcited compound based on the individual changes of the five sites. Synergy between metallophilic interactions and the spin transition is also shown by the variation of the (AgAg)-Ag-... distances. Correlations between the variation of the unit-cell volume and the change of (AgAg)-Ag-... interactions within each step with the asymmetric change of the anomalous heat capacity have also been inferred.

Citation

Niel, V., Thompson, A., Goeta, A., Enachescu, C., Hauser, A., Galet, A., …Real, J. (2005). Thermal- and photoinduced spin-state switching in an unprecedented three-dimensional bimetallic coordination polymer. Chemistry - A European Journal, 11(7), 2047-2060. https://doi.org/10.1002/chem.200400930

Journal Article Type Article
Publication Date Mar 18, 2005
Deposit Date Apr 10, 2007
Journal Chemistry - A European Journal
Print ISSN 0947-6539
Electronic ISSN 1521-3765
Publisher Wiley
Peer Reviewed Peer Reviewed
Volume 11
Issue 7
Pages 2047-2060
DOI https://doi.org/10.1002/chem.200400930
Keywords Argentophilic interactions, Coordination modes, Polymers, Spin crossover.
Public URL https://durham-repository.worktribe.com/output/1601290