Weak ferromagnetism of LiMnPO4

Structural and magnetic properties of the novel materials for lithium batteries LiFePO₄ and LiMnPO₄ were studied by X-ray diffraction, SQUID magnetometry and EPR spectroscopy. LiMnPO₄ has an olivine-type structure with a Mn-ion square lattice in the b-c plane. The occupation factors for Li and those oxygen atoms, which bridge Mn ions in the b-c plane showed noticeable deviation from the stoichiometry. In addition, the oxygen atoms, which are in the same layer as Li ions, exhibit a remarkable mean-square displacement in LiMnPO₄ but not in LiFePO₄. The olivine structure suggests quasi-two-dimensional (quasi-2D) antiferromagnetic structure of Mn(II) ions (S=5/2) with sizable interlayer exchange interactions. Magnetization measurements clearly revealed a transition to a weak ferromagnetic state below T_N=45 K. On the other hand we find that LiFePO₄ orders antiferromagnetically below 50 K. The difference in the magnetic properties of LiMnPO₄ and LiFePO₄ reflect the differences in the electronic states between these two compounds and may be very important for the electrochemical inactivity of LiMnPO₄. EPR measurements also suggest that at temperatures above T_N the low-energy magnetic excitations in LiMnPO₄ are characteristic for the quasi-2D magnetic structure with the soliton excitation energy E_S=139 K.