000			02041nam a22002297a 4500
999			_c48371 _d48371
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003			OSt
005			20161102161639.0
007			ta
008			150626b xxu||||| |||| 00| 0 eng d
020			_a0306457369
041			_aeng
082			_a621.31242 _bC767
100			_aConway, B. E. _99591
245			_aElectrochemical supercapacitors : _bScientific fundamentals and technological applications / _cB. E. Conway
260			_aNew York : _bKluwer Academic, _c1999
300			_a698 p.
500			_aIngreso proyecto 427
505			_a1. Introduction and historical perspective 2. Similarities and differences between supercapacitors and batteries for storing electrical energy 3. Energetics and elements of th kinetics of electrode processes 4. Elements of electrostatics involved in treatment of double layers and Ions at capacitor electrode interphases 5. Behavior of dielectrics in capcitors and theories of dielectric polarization 6. The double layer at capacitor electrode interfaces : Its stucture and capacitance 7. Theoretical treatment and modeling of the double layer at electrode interfaces 8. Behavior of the double layer in nonaqueous electrolytes and nonaqueous electrolyte capacitors 9. The double layer and surface functionalities at carbon 10. Electrochemical capacitors based on Pseudocapacitance 11. The electrochemical behavior of ruthenium oxide (RuO2) as a material for electrochemical capacitors 12. Capacitance behvior of films os conducting 13. The electrolyte factor in supercapacitor design and perfomance : conducting, Ion Pairing and solvation 14. Electrochemical behavior att porous electrodes; applications to capacitors 15. Energy density and power density of electrical energy storange devices 16. AC impedance behavior of electrochemical capacitors and other electrochemical systems 17. Treatments of impedance behavior of various circuits and modeling of double-layer capacitor frequency response.
650			_aStorage Batteries _xElectrolytic Capacitors _99592
942			_2ddc _cLOPT