Phase transition in lithium manganese oxide spinel synthesized by sol-gel technique and in samples prepared from commercially available powders of LiMn2O4 (Alfa-Aesar and Sigma-Aldrich) was investigated. In addition to the standard impedance measurements and the X-ray diffraction in Bragg-Brentano geometry, simultaneous measurements of impedance spectrum and X-ray pattern in non-focusing geometry were performed in the temperature range between -25 and +100 degrees C. Correlation between the XRD profile parameters and the electrical conductivity was evidenced. Spinel synthesized by the sol-gel technique and heat-treated at 800 degrees C as well as samples prepared from Alfa-Aesar powder exhibited a distinctive phase transition from cubic to orthorhombic structure upon cooling below room temperature. Structural transition was visible in the X-ray pattern as splitting of the 4 0 0 reflection of cubic structure, and was accompanied by a decrease of conductivity by a factor of about 10. In the sample prepared from powder supplied by Sigma-Aldrich the phase transition was not complete even upon cooling to -25 degrees C, and no stepwise change of conductivity was observed. Differences in behavior of the spinel samples can be related to the presence of additional phases (Mn3O4 or Li2MnO3) which were found in commercial powders, whereas the sol-gel synthesized samples were single phase. (c) 2006 Elsevier B.V. All rights reserved.