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- Pseudocapacitance abstract "Pseudocapacitance stores electrical energy electrochemically by means of reversible faradaic redox reactions on the surface of suitable electrodes in an electrochemical capacitor with a electric double-layer. Pseudocapacitance is accompanied with an electron charge-transfer between electrolyte and electrode coming from a de-solvated and adsorbed ion whereby only one electron per charge unit is participating. This faradaic charge transfer originates by a very fast sequence of reversible redox, elctrosorption or intercalation processes. The adsorbed ion has no chemical reaction with the atoms of the electrode. No chemical bonds arise. Only a charge-transfer take place.A faradaic pseudocapacitance still only occurs together with a static double-layer capacitance. Pseudocapacitance and double-layer capacitance both contribute indivisible to the total capacitance value of the chemical capacitor. The amount of pseudocapacitance depends on the surface area, material and structure of the electrodes. The pseudocapacitance may exceed the value of double-layer capacitance for the same surface area by factor 100, depending on the nature and the structure of the electrode.The amount of electric charge stored in a pseudocapacitance is linearly proportional to the applied voltage. The unit of pseudocapacitance is farad.".
- Pseudocapacitance thumbnail Pseudocapacitance-Priciple.png?width=300.
- Pseudocapacitance wikiPageExternalLink 10.1007%2Fs10008-003-0412-x?LI=true.
- Pseudocapacitance wikiPageExternalLink ElectricalEnerStor1208.pdf.
- Pseudocapacitance wikiPageID "41721510".
- Pseudocapacitance wikiPageRevisionID "600676643".
- Pseudocapacitance autor "B. E. Conway".
- Pseudocapacitance autor "Héctor D. Abruña, Yasuyuki Kiya, Jay C. Henderson".
- Pseudocapacitance autor "J. O'M. Bockris, M. A. V. Devanathan and K. Muller".
- Pseudocapacitance autor "Jiujun Zhang, Lei Zhang, Hansan Liu, Andy Sun, Ru-Shi Liu".
- Pseudocapacitance band "274".
- Pseudocapacitance doi "10.1098".
- Pseudocapacitance isbn "306457369".
- Pseudocapacitance isbn "978".
- Pseudocapacitance jahr "1963".
- Pseudocapacitance jahr "1999".
- Pseudocapacitance jahr "2008".
- Pseudocapacitance jahr "2011".
- Pseudocapacitance kommentar "Kapitel 8 - Electrochemical Supercapacitors".
- Pseudocapacitance nummer "12".
- Pseudocapacitance nummer "1356".
- Pseudocapacitance online ElectricalEnerStor1208.pdf.
- Pseudocapacitance ort "Berlin".
- Pseudocapacitance ort "Weinheim".
- Pseudocapacitance sammelwerk Physics_Today.
- Pseudocapacitance sammelwerk "Proceedings of the Royal Society".
- Pseudocapacitance seiten "317".
- Pseudocapacitance seiten "43".
- Pseudocapacitance seiten "55".
- Pseudocapacitance titel "Batteries and electrochemical capacitors".
- Pseudocapacitance titel "Electrochemical Supercapacitors: Scientific Fundamentals and Technological Applications".
- Pseudocapacitance titel "Electrochemical Technologies for Energy Storage and Conversion, Band 1".
- Pseudocapacitance titel "On the Structure of Charged Interfaces".
- Pseudocapacitance verlag "Springer".
- Pseudocapacitance verlag "Wiley-VCH".
- Pseudocapacitance subject Category:Capacitors.
- Pseudocapacitance comment "Pseudocapacitance stores electrical energy electrochemically by means of reversible faradaic redox reactions on the surface of suitable electrodes in an electrochemical capacitor with a electric double-layer. Pseudocapacitance is accompanied with an electron charge-transfer between electrolyte and electrode coming from a de-solvated and adsorbed ion whereby only one electron per charge unit is participating.".
- Pseudocapacitance label "Pseudocapacitance".
- Pseudocapacitance label "Pseudokapazität".
- Pseudocapacitance sameAs Pseudokapazität.
- Pseudocapacitance sameAs m.0_fnb54.
- Pseudocapacitance sameAs Q15700830.
- Pseudocapacitance sameAs Q15700830.
- Pseudocapacitance wasDerivedFrom Pseudocapacitance?oldid=600676643.
- Pseudocapacitance depiction Pseudocapacitance-Priciple.png.
- Pseudocapacitance isPrimaryTopicOf Pseudocapacitance.