Method and apparatus for characterizing high-energy electrochemical cells using power functions obtained from calorimetry

Assignee

• 3M INNOVATIVE PROPERTIES COMPANY · US

Inventors

• Jeffery Raymond Dahn · Surrey, CA
• Dean MacNeil · Cambridge, US
• Timothy D Hatchard · Halifax, CA

Key dates

Classification

• Technology area (CPC Y)Emerging Cross-Sectional Technologies
• CPC primaryY02P70/50
• WIPO fieldMeasurement
• WIPO sectorInstruments

Abstract

Characterizing electrochemical cell components and a response of an electrochemical cell to a specified operating condition involves preparing a sample of an electrode material in contact with an electrolyte. Self-heating, power-temperature or power-time data is obtained for the sample using a calorimetry technique, such as by use of an accelerating rate calorimetry technique or a differential scanning calorimetry technique. A power function is developed for the sample using the self-heating, power-temperature or power-time data. The power function is representative of thermal power per unit mass of the sample as a function of temperature and amount of reactant remaining from a reaction of the sample electrode material and electrolyte. A first power function is developed that characterizes a reaction between the cathode material and the electrolyte in terms of thermal power per unit mass of a cathode sample material, and a second power function is developed that characterizes a reaction between the anode material and the electrolyte in terms of thermal power per unit mass of the anode sample material. An electrode material sample from which a power function is developed is prepared…