Jesse C. Kelly scite author profile

A thermally responsive copolymer is designed to modulate the properties of an electrolyte solution. The copolymer is prepared using pNIPAM, which governs the thermal properties, and acrylic acid, which provides the electrolyte ions. As the polymer undergoes a thermally activated phase transition, the local environment around the acid groups is reversibly switched, decreasing ion concentration and conductivity. The responsive electrolyte is used to control the activity of redox electrodes with temperature.

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Li-ion battery shut-off at high temperature caused by polymer phase separation in responsive electrolytes

Kelly

Degrood

Roberts

2015

Chem. Commun.

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For the purpose of realizing inherently safe high-power Li-ion batteries, a model Li4Ti5O12/LiFePO4 rechargeable battery is investigated using the thermally responsive polymer, poly(benzyl methacrylate), in an ionic liquid. At high temperature, battery operation is inhibited as a result of increased internal resistance caused by polymer and ionic liquid phase separation. Li-ion concentration is shown to affect the phase transition temperature and the extent to which batteries are deactivated.

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Responsive electrolytes that inhibit electrochemical energy conversion at elevated temperatures

2015

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Jesse C. Kelly

Reversible Control of Electrochemical Properties Using Thermally‐Responsive Polymer Electrolytes

Li-ion battery shut-off at high temperature caused by polymer phase separation in responsive electrolytes

Responsive electrolytes that inhibit electrochemical energy conversion at elevated temperatures

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