Electrochemical Capacitors and Hybrid Power Batteries 2008P. Simon The Electrochemical Society, 2008 - 244 Seiten Electrochemical capacitors in part or in whole on the electrical double later at electrode interfaces have found application in a variety of energy storage applications. Paper for the symposium are solicited that cover all fundamental and practical aspects of ultracapacitors, supercapacitors, and similar electrochemical energy conversion devices, including: 1) double layer and/or pseudo-capacitance of carbons, conducting polymers, and advanced inorganic materials, 2) synthesis and characterization of high surface area materials for electrochemical capacitors, 3) development and optimization of practical ultra- and super-capacitor components, including current collectors, electrodes, electrolytes, separators and packaging, 4) performance of new device designs and construction using symmetric and asymmetric electrode constructions, 5) mathematical models for performance characterization, 6) comparison of energy, power, and lifetime characteristics of hybrid fuel cell and battery power sources utilizing electrochemical capacitors. Keynote speakers will present tutorials covering recent advances and future directions for electrochemical capacitor technology. |
Häufige Begriffe und Wortgruppen
AC impedance activated carbon additive anatase anode applications aqueous asymmetric cell battery behavior birnessite C.R.M. resistance capacity carbon nanotubes cathode characteristics charge/discharge Chem CNT-Veil CNTs CNTs/SnO composite film conductivity cryptomelane current density current-rest Current-Rest-Method curves cycles cyclic voltammetry cyclic voltammograms decrease deposition diameter diffraction discharge process doping double layer DWCNTs EDLC electric electrochemical capacitors electrochemical impedance Electrochemical Society Electrochemical Supercapacitors electrode films electrode materials electrolyte EMIBF4 energy density Figure frequency galvanostatic graphite hybrid increase intercalation interface ionic liquid ionic liquid electrolyte ions IrO2 film layer capacitors manganese measured micropores MnO2 MnO2/SWNTs MTEA mV/s nanocomposite nanowires Nyquist plots oxide particles peak performance plots polymer pore size distribution potential Power Sources PProDOT pseudocapacitance PVDF redox salt scan rate shows SiWA solution specific capacitance specific surface area structure substrate supercapacitor SWCNTs SWNTs thethe total pore volume values voltage