Issue 17, 2024

Antiferromagnetism and insulator-metal transition of alkali metal-loaded sodalite

Abstract

Alkali metal clusters with a single unpaired s-electron can be arranged three-dimensionally in a sodalite crystal by loading the guest alkali atoms. Na, K, and K–Rb alloy clusters are known to be Mott insulators and to exhibit antiferromagnetic ordering. The Néel temperature increases from about 50 K to about 100 K in this order. In this study, Li–Na alloy, Na–K alloy, and pure Rb samples were newly prepared and their magnetic, electrical conductivity, and optical properties were investigated, including those of previous samples. The Na–K alloy samples showed antiferromagnetic properties, which were intermediate between those of the Na and K samples. However, the Rb sample showed a non-magnetic metallic state. The shallower ionization potential in Rb is thought to cause an insulator-metal transition (Mott transition) due to weaker on-site Coulomb repulsion between electrons and larger electron transfer energy between neighboring clusters. On the other hand, the Li–Na alloy sample showed a non-magnetic insulating state. It is thought that the two electrons form a spin-singlet pair due to the strong electron-lattice interaction. In terms of electron correlations and polaron effects, the full picture of the element species dependence of the alkali metal-loaded sodalite is reviewed.

Graphical abstract: Antiferromagnetism and insulator-metal transition of alkali metal-loaded sodalite

Supplementary files

Article information

Article type
Paper
Submitted
26 Feb 2024
Accepted
08 Apr 2024
First published
11 Apr 2024

Dalton Trans., 2024,53, 7358-7366

Antiferromagnetism and insulator-metal transition of alkali metal-loaded sodalite

T. Nakano, K. Watanabe, A. Hanazawa, Y. Ishida, K. Tanibe and R. Sakon, Dalton Trans., 2024, 53, 7358 DOI: 10.1039/D4DT00562G

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