Crystal Growth and anisotropic magneto-transport properties of semimetallic LaNiSb3
Abstract
Single crystals of LaNiSb3 were grown using the Sn flux method. Structural characterization confirms that LaNiSb3 crystallizes in the orthorhombic Pbcm space group with lattice parameters a = 13.0970(2)\,Å, b = 6.1400(4)\,Å, and c = 12.1270(4)\,Å. Electrical resistivity measurements demonstrate metallic behavior over the entire temperature range of 3--300~K. The magnetoresistance exhibits a positive anisotropic response, attaining a maximum of 8\% for H b, with a pronounced crossover from quadratic to nearly linear field dependence. Angular-dependent MR measurements reveal a pronounced twofold symmetry upon magnetic field rotation within both the ab and ac crystallographic planes up to 50~K, indicating anisotropic charge transport. Hall resistivity measurements show predominantly electron-type conduction at high temperatures, with an increasing hole contribution upon cooling. The multiband character is further corroborated by the violation of Kohler's scaling and is well described within a semiclassical two-band framework. Collectively, these results suggest that LaNiSb3 exhibits anisotropic multiband electronic transport and is a compelling candidate for exploring structure--property correlations in topological semimetals.
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