Hydrated lithium intercalation into the Kitaev spin liquid candidate material α-RuCl3

Abstract

We study on transport and magnetic properties of hydrated and lithium-intercalated α-RuCl3, LixRuCl3 · yH2O, for investigating the effect on mobile-carrier doping into candidate materials for a realization of a Kitaev model. From thermogravitometoric and one-dimensional electron map analyses, we find two crystal structures of this system, that is, mono-layer hydrated LixRuCl3 · yH2O~(x≈0.56, y≈1.3) and bi-layer hydrated LixRuCl3 · yH2O~(x≈0.56, y≈3.9). The temperature dependence of the electrical resistivity shows a temperature hysteresis at 200-270 K, which is considered to relate with a formation of a charge order. The antiferromagnetic order at 7-13 K in pristine α-RuCl3~ is successfully suppressed down to 2 K in bi-layer hydrated LixRuCl3 · yH2O, which is sensitive to not only an electronic state of Ru but also an interlayer distance between Ru-Cl planes.