Quaternary Li-Mn-V-O spinels were prepared by heating mixtures of MnCO3, V2O5 and LiNO3 at 700 degrees C for 36 h in ail. The spinel oxides were characterized by X-ray diffraction, FT-a spectroscopic, density and electrochemical measurements. The unit cell volume in a cubic cell increased with an increase in V content in LiVxMn2-xO4 (x=0-0.2), while the amounts of lithium intercalated into the spinels in a high potential region around 4 V versus Li/Li+ decreased considerably with an increase in V content, Furthermore, the thermodynamics and kinetics of the lithium intercalation process into the spinel LinVxMn2-xO4 were studied. The standard free energies of lithium intercalation into the spinels were -291 kJ/mol for x=0 and -264 kJ/mol for x=0.05 at n=0-1 and 25 degrees C. The chemical and self-diffusion coefficients for lithium in LinVxMn2-xO4 spinels were measured as functions of the n and x values by a current-pulse relaxation method. The diffusion coefficients in the spinel with x=0.05 in the n-value range from 0.3 to 1 were about one order of magnitude lower than that in LinMn2O4.