Electrical Double-Layer Capacitance in Room Temperature Ionic Liquids: Ion-Size and Specific Adsorption Effects

Electrical Double-Layer Capacitance in Room Temperature Ionic Liquids: Ion-Size and Specific Adsorption Effects

The electrical double-layer structure and capacitance in room temperature ionic liquids at electrified interfaces were systematically studied with use of the self-consistent mean-field theory. The capacitance curve departs from symmetry with respect to the point of zero charge when unequal ion-size...

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Veröffentlicht in:The journal of physical chemistry. B 2010-09, Vol.114 (34), p.11149-11154
Hauptverfasser: Lauw, Y, Horne, M. D, Rodopoulos, T, Nelson, A, Leermakers, F. A. M
Format: Artikel
Sprache:eng
Schlagworte:
B: Statistical Mechanics, Thermodynamics, Medium Effects
differential capacitance
electrode
enhanced raman-scattering
interacting chain molecules
interface
partial charge-transfer
spectroscopy
statistical-theory
sum-frequency generation
surface-structure
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Zusammenfassung:The electrical double-layer structure and capacitance in room temperature ionic liquids at electrified interfaces were systematically studied with use of the self-consistent mean-field theory. The capacitance curve departs from symmetry with respect to the point of zero charge when unequal ion-size is implemented or when specific adsorption of ions is introduced. For the case of unequal ion-size, the shape of the capacitance curve is strongly determined by the size of the counterion and only weakly influenced by the co-ion size. When present, specifically adsorbed ions would change the capacitance within a limited range of applied potential from the point of zero charge, which itself varies with the strength of specific adsorption.
ISSN:1520-6106
1520-5207
DOI:10.1021/jp105317e