Polymer Selection and Cell Design for Electric-Vehicle Supercapacitors

Tipo de material: Texto

TextoSeries ; Journal of The ElectroChemical Society, 147(2), p.407-412, 2000Trabajos contenidos:

Mastragostino, M
Arbizzani, C
Paraventi, R
Zanellia, A

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Resumen: Supercapacitors are devices for applications requiring high operating power levels, such as secondary power sources in electric vehicles (EVs)to provide peak power for acceleration and hill climbing. While electronically conducting polymers yield different redox supercapacitor configurations, devices with the n-doped polymer as the negative electrode and the p-doped polymer as the positive one are the most promising for EV applications. Indeed, this type of supercapacitor has a high operating potential, is able to deliver all the doping charge and, when charged, has both electrodes in the conducting (p- and n-doped)states. This study reports selection criteria for polymer materials and cell design for high performance EV supercapacitors

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Supercapacitors are devices for applications requiring high operating power levels, such as secondary power sources in electric vehicles (EVs)to provide peak power for acceleration and hill climbing. While electronically conducting polymers yield different redox supercapacitor configurations, devices with the n-doped polymer as the negative electrode and the p-doped polymer as the positive one are the most promising for EV applications. Indeed, this type of supercapacitor has a high operating potential, is able to deliver all the doping charge and, when charged, has both electrodes in the conducting (p- and n-doped)states. This study reports selection criteria for polymer materials and cell design for high performance EV supercapacitors

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