Construction of Ideal One-Dimensional Spin Chains by Topochemical Dehydration/Rehydration Route - Archive ouverte HAL
Article Dans Une Revue Journal of the American Chemical Society Année : 2024

Construction of Ideal One-Dimensional Spin Chains by Topochemical Dehydration/Rehydration Route

Résumé

One-dimensional (1D) Heisenberg antiferromagnets are of great interest due to their intriguing quantum phenomena. However, the experimental realization of such systems with large spin S remains challenging because even weak interchain interactions induce long-range ordering. In this study, we present an ideal 1D S = 5/2 spin chain antiferromagnet achieved through a multistep topochemical route involving dehydration and rehydration. By desorbing three water molecules from (2,2′-bpy)FeF3(H2O)·2H2O (2,2′-bpy = 2,2′-bipyridyl) at 150 °C and then intercalating two water molecules at room temperature (giving (2,2′-bpy)FeF3·2H2O 1), the initially isolated FeF3ON2 octahedra combine to form corner-sharing FeF4N2 octahedral chains, which are effectively separated by organic and added water molecules. Mössbauer spectroscopy reveals significant dynamical fluctuations down to 2.7 K, despite the presence of strong intrachain interactions. Moreover, results from electron spin resonance (ESR) and heat capacity measurements indicate the absence of long-range order down to 0.5 K. This controlled topochemical dehydration/rehydration approach is further extended to (2,2′-bpy)CrF3·2H2O with S = 3/2 1D chains, thus opening the possibility of obtaining other low-dimensional spin lattices.

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Dates et versions

hal-04528863 , version 1 (20-11-2024)

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Yanhong Wang, Peng Fu, Hiroshi Takatsu, Cédric Tassel, Naoaki Hayashi, et al.. Construction of Ideal One-Dimensional Spin Chains by Topochemical Dehydration/Rehydration Route. Journal of the American Chemical Society, 2024, 146 (12), pp.8320-8326. ⟨10.1021/jacs.3c13902⟩. ⟨hal-04528863⟩
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