Controlling the stoichiometry of the triangular lattice antiferromagnet Li1+xZn2-yMo3O8

Abstract

The control of the stoichiometry of Li1+xZn2-yMo3O8 was achieved by the solid-state-reaction. We found that the best sample that has the chemical composition Li0.95(4)Zn1.92(8)Mo3O8 was obtained from the starting nominal composition with Li : Zn : Mo : O = (1+w) : (2.8-w) : 3 : 8.6 with w = -0.1, indicating that the stoichiometry is greatly improved compared to those in the earlier reports. For larger w detailed structural analysis indicates that the mixed sites of Li and Zn are preferentially occupied by Li atoms, as well as the fraction of the non-magnetic secondary phase Zn2Mo3O8 decreases. Magnetic susceptibility of the improved stoichiometry powder samples shows a broad hump in the temperature range of 100 < T < 200 K. This suggests that the development of antiferromagnetic correlations at the high temperatures is inherent to the ideal stoichiometric LiZn2Mo3O8.