Jason N. Howard scite author profile

Thermal stability of fully charged 550 mAh prismatic Li-ion cells (Sn-doped LiCoO 2 /graphitic carbon) and their components are investigated. Accelerating rate calorimetry (ARC) is used to determine the onset temperature of exothermic chemical reactions that force the cell into thermal runaway. Differential scanning calorimetry (DSC) and thermogravimetry analysis are used to determine the thermal stability of the cell's positive electrode (PE) and negative electrode (NE) materials from 35 to 400ЊC. The cell selfheating exothermic reactions start at 123ЊC, and thermal runaway occurs near 167ЊC. The total exothermic heat generation of the NE and PE materials are 697 and 407 J/g, respectively. Heat generations of the NE and PE materials, washed in diethyl carbonate (DEC) and dried at Ϸ65ЊC under vacuum, are significantly lower than unwashed samples. Lithium plating increases the heat generation of the NE material at temperatures near the lithium melting point. Comparison of the heat generation profiles from DSC and ARC tests indicates that thermal runaway of this cell is close to the decomposition temperature range of the unwashed PE material. We conclude that the heat generation from the decomposition of PE material and reaction of that with electrolyte initiates thermal runaway in a Li-ion cell, under thermally or abusive conditions.

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Electrochemical Deposition of Copper on a Gold Electrode in Sulfuric Acid: Resolution of the Interfacial Structure

Toney

et al. 1995

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Jason N. Howard

Voltage-dependent ordering of water molecules at an electrode–electrolyte interface

Characterization of microporous separators for lithium-ion batteries

Thermal Stability Studies of Li‐Ion Cells and Components

Electrochemical Deposition of Copper on a Gold Electrode in Sulfuric Acid: Resolution of the Interfacial Structure

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