Clarification Of The Ordering Of Intercalated Fe Atoms In Fextis2 And Its Effect On The Magnetic Properties

Even though there has been a lot of studies on the magnetic properties of FexTiS2 and their corresponding atomic structures at different Fe concentrations, the dependency of the properties on the Fe atomic arrangement has not been fully clarified yet. In this study, FexTiS2 structures, synthesized by chemical vapor transport technique at Fe concentrations of 0.05, 0.10, 0.15, 0.20 0.25 and 0.33, were observed three-dimensionally using a transmission electron microscope and their corresponding magnetization values were measured using a superconducting quantum interference device. The results show a switch from local in-plane two-dimensional (2D) ordering of root 3a and 2a at concentrations below 0.15 to three-dimensional (3D) ordering of 2a x 2a x 2c at x = 0.20 and 0.25, as well as root 3a x root 3a x 2c superstructures at x = 0.33, although it should be noted that the x = 0.20 sample only had partial ordering of Fe atoms. The type of Fe ordering present in FexTiS2 could be explained by the balance of cohesive energy of neighboring Fe atoms and local strain energy imposed on the host structure due to the formation of Fe clusters. It is also found that the switch from 2D to 3D Fe order coincides with the magnetic measurements, which reveal spin-glass behavior below x = 0.15 and ferromagnetic behavior above x = 0.20. This suggests that the magnetic properties of the FexTiS2 structure are highly influenced by the ordering of Fe atoms between planes.