Al掺杂对尖晶石型LiMn2O4结构及循环性能的影响

用柠檬酸作为螯和物的载体,采用溶胶-凝胶法合成了A l3 掺杂的锂离子电池正极材料L iA lxMn2-xO4。XRD,SEM研究表明,于800℃煅烧可获得单一尖晶石结构的物相;随着A l3 掺入量的增加,L iA lxMn2-xO4的晶格常数变小,晶格更趋于完整,有利于抑制因锂的反复脱嵌而造成的结构破坏。x=0.05时,首次放电容量为103.8 mAh.g-1,25次循环后放电容量还有100.6 mAh.g-1,容量衰减仅为3.08%。     

Thermal Conversion of Gels Prepared by the Complex Sol-Gel Process (CSGP) from Li+-Me2+-CH3COO−-Ascorbic Acid (ASC)-NH4 +-OH−-H2O Systems to LiMn2O4 and LiNi x Co1 − x O2

The spinel LiMn₂O₄ and layered oxides LiNi _x Co_{1 – x} O₂ (x = 1; 0.75; 0) have been prepared by Complex Sol-gel Process (CSGP). The appropriate sol compositions were obtained from acetate aqueous solution of metals containing ascorbic acid by alkalizing it with aqueous ammonia. Gels were produced from the systems by evaporation of water and other volatilies at elevated temperatures. A very intense foaming was observed during the heating at the temperatures higher than 140°C. To avoid foaming in the course of the final thermal treatment, a very long (lasting several days) soaking step was found necessary. However pretreated materials exhibit self-ignition at temperature range 320–500°C dependent on socking conditions. The dependence of self-ignition temperature on carbon content in bed as well as on specific surface has not been proved. Final thermal transformation of gel to solid was studied by TG, DTA, XRD, and IR methods. It was observed that final compounds are formed faster from precursors which did not contain Ni (e.g. LiMn₂O₄ and LiCoO₂), while Li carbonate is not formed in these systems. In contrast, in Li-Ni(Co)-O the formation of Li(or Ni)CO₃ was always proved. In addition, during the thermal treatment Ni species are partially reduced even to metallic phase. This effect evidently restrains the formation of pure layered oxides phase. Electrochemical properties of carbonate free compounds are definitely better than of those containing CO₃.