Method for predicting discharge capacity and operating voltage of lithium rechargeable battery using lithium manganese spinel cathode material

Assignee

• The Agency of Industrial Science and Technology · JP

Inventors

• Mitsuharu Tabuchi · Osaka, JP
• Kazuaki Ado · Ikeda, JP
• Hiroyuki Kageyama · Ikeda, JP
• Osamu Nakamura · Atsugi, JP

Key dates

Classification

• Technology area (CPC Y)Emerging Cross-Sectional Technologies
• CPC primaryY02E60/10
• WIPO fieldMeasurement
• WIPO sectorInstruments

Abstract

A method of determining the charge and/or discharge capacities of non-aqueous batteries with an operating voltage of about 4 volts, is provided including determining an inverse molar susceptibility value at each of a plurality of different temperatures for a plurality of lithium manganese spinel oxide cathode materials having different respective Mn valencies; plotting the inverse molar susceptibility values against temperatures for each of the plurality of lithium manganese spinel oxide cathode materials; determining values of at least one of two paramagnetic parameters, Weiss temperature and effective magnetic moment, by obtaining the temperature dependence of the above inverse molar susceptibility from a plot derived from the Curie-Weiss law, the Weiss temperature corresponding to a temperature value extrapolated to a zero point of the inverse molar susceptibility and the effective magnetic moment being obtainable from the gradient value of the plot; producing plural rechargeable lithium batteries in which lithium manganese spinel oxides with well-defined Mn valencies are used as cathode materials, and finding at least one of the charge or discharge capacities around 4V for each…