Thermal-, Pressure- and Light-Induced Spin-Crossover Behaviour in the Two-Dimensional Hofmann-Like Coordination Polymer [Fe(3-Clpy)2Pd(CN)4]

Thermal-, Pressure- and Light-Induced Spin-Crossover Behaviour in the Two-Dimensional Hofmann-Like Coordination Polymer [Fe(3-Clpy)2Pd(CN)4]

The thermal spin‐crossover behaviour, photoexcitation and subsequent relaxation, as well as the pressure‐induced spin‐crossover behaviour at 298 K are discussed for the non‐porous two‐dimensional Hofmann‐like coordination polymer [Fe(3‐Clpy)2Pd(CN)4] (1). The title compound undergoes a two‐step, coo...

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Published in:European journal of inorganic chemistry Vol. 2013; no. 5-6; pp. 813 - 818
Main Authors: Martínez, Víctor, Arcís Castillo, Zulema, Muñoz, M. Carmen, Gaspar, Ana B., Etrillard, C., Létard, Jean-François, Terekhov, Sergey A., Bukin, Gennadiy V., Levchenko, Georgiy, Real, José A.
Format: Journal Article
Language:English
Published: Weinheim WILEY-VCH Verlag 01-02-2013
WILEY‐VCH Verlag
Wiley Subscription Services, Inc
Subjects:
Absorption
Coordination polymers
Critical temperature
Enthalpy
Hysteresis
Iron
Irradiation
Photoexcitation
Photomagnetism
Spin crossover
Thermodynamics
Two dimensional
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Summary:The thermal spin‐crossover behaviour, photoexcitation and subsequent relaxation, as well as the pressure‐induced spin‐crossover behaviour at 298 K are discussed for the non‐porous two‐dimensional Hofmann‐like coordination polymer [Fe(3‐Clpy)2Pd(CN)4] (1). The title compound undergoes a two‐step, cooperative thermal‐induced SCO with critical temperatures Tc1↓ = 159.6 K and Tc1↑ = 164.5 K for the first step and Tc2↓ = 141.4 K and Tc2↑ = 148.4 K for the second step. Irradiation of the low‐spin state with green light (514 nm) at 10 K induced the photoexcitation of around 60 % of the iron(II) centres to the high‐spin state (LIESST effect). The subsequent cooperative relaxation processes were recorded at several temperatures and analysed. The effect of cooperativity on the photoexcitation was investigated by the LITH (light‐induced thermal hysteresis) procedure. At 300 K, the coordination polymer 1 underwent a cooperative spin‐crossover transition at around 0.6 GPa. The thermodynamic analysis of the pressure‐induced SCO transition afforded the enthalpy and cooperativity parameters ΔHHL(p) = 22.01 kJ mol–1 and Γ(p) = 7.47 kJ mol–1, consistent with previous results. The thermal spin‐crossover behaviour, photoexcitation and subsequent relaxation, as well as the pressure‐induced spin‐crossover behaviour at 300 K are discussed for the non‐porous two‐dimensional Hofmann‐like coordination polymer [Fe(3‐Clpy)2Pd(CN)4].
Bibliography:ark:/67375/WNG-PG62ZMP7-5
istex:0010BE6AD863BE1BF8997230377DA8DA75D84DB5
ArticleID:EJIC201201097
ObjectType-Article-1
SourceType-Scholarly Journals-1
ObjectType-Feature-2
content type line 23
ISSN:1434-1948
1099-0682
DOI:10.1002/ejic.201201097