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Titolo: APERIODIC EQUIVALENTCIRCUIT FOR CHARGE PERMEABLE THINLAYER CELLS OFSYMMETRICAL, ASYMMETRIC TYPES
Autore: BUCK RP; MUNDT C;
 Indirizzi:
 UNIV N CAROLINA,DEPT CHEM,CB 3290 CHAPEL HILL NC 27599 N CAROLINA STATE UNIV,DEPT ELECT & COMP ENGN RALEIGH NC 27695
 Titolo Testata:
 Journal of the Chemical Society. Faraday transactions
fascicolo: 20,
volume: 92,
anno: 1996,
pagine: 3947  3955
 SICI:
 09565000(1996)92:20<3947:AEFCPT>2.0.ZU;2U
 Fonte:
 ISI
 Lingua:
 ENG
 Soggetto:
 TRANSMISSIONLINE MODEL; STEADYSTATECURRENT; ELECTROCHEMICALCELLS; NERNSTPLANCK; MODIFIED ELECTRODES; MEMBRANE SYSTEMS; IONIC TRANSPORT; IMPEDANCES; MIGRATION; FINITE;
 Tipo documento:
 Article
 Natura:
 Periodico
 Settore Disciplinare:
 Science Citation Index Expanded
 Science Citation Index Expanded
 Citazioni:
 43
 Recensione:
 Indirizzi per estratti:



 Citazione:
 R.P. Buck e C. Mundt, "APERIODIC EQUIVALENTCIRCUIT FOR CHARGE PERMEABLE THINLAYER CELLS OFSYMMETRICAL, ASYMMETRIC TYPES", Journal of the Chemical Society. Faraday transactions, 92(20), 1996, pp. 39473955
Abstract
In this paper, some of the various predictions of the original BBB (BarkerBrumleveBuck) circuit, primarily the high frequency migration (geometric), and the low frequency diffusionmigration subcircuit units, are illustrated using a newer procedure that was not available in our laboratory in 1980: SPICE circuit simulation. The aperiodic Rs and Cs generate the lowfrequency Warburg characteristics. The Poisson string generates the high frequency geometric cell capacitor in parallel with the unperturbedconcentration ac resistance. The well known two feature impedance plane plot arises, for reversible interfacial ion andelectron transport, from this simple circuit. The usual three featureimpedance plane plots can follow for slow, potentialdependent ion and/or electron transfers with the usual linearized activation kinetics,by addition of parallel activation resistance and double layer capacitance networks for each ion requiring activation to cross the interfaces. Likewise the uncompensated solution resistance gives a fourth feature that is not often observed experimentally except as a nonzero real intercept at highest frequencies. The theory and the basic twofeature circuit of nearly 20 years contains most of Albery's recent contributions, as well as much more advanced analysis. The new analysis usingSPICE shows the scope and limits of classical transmission lines compared with the more general BBB circuits.
ASDD Area Sistemi Dipartimentali e Documentali, Università di Bologna, Catalogo delle riviste ed altri periodici
Documento generato il 02/06/20 alle ore 01:05:09