Charging of silver bromide aqueous interface: Evaluation of interfacial equilibrium constants from surface potential data

A single crystal silver bromide electrode (SCr–AgBr) was used to measure the inner surface potential ( Ψ 0) at the silver bromide aqueous electrolyte interface. A single crystal silver bromide electrode (SCr–AgBr) was used to measure the inner surface potential ( Ψ 0) at the silver bromide aqueous e...

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Bibliographic Details
Published in:Journal of colloid and interface science 2010-06, Vol.346 (1), p.222-225
Main Authors: Preočanin, Tajana, Šupljika, Filip, Kallay, Nikola
Format: Article
Language:English
Subjects:
Chemical equilibrium
Chemistry
Colloids
Electrodes
Exact sciences and technology
General and physical chemistry
Mathematical models
Silver bromide
Silver bromides
Single crystal electrode
Strength
Surface charge
Surface chemistry
Surface complexation model
Surface equilibrium constants
Surface physical chemistry
Surface potential
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Summary:A single crystal silver bromide electrode (SCr–AgBr) was used to measure the inner surface potential ( Ψ 0) at the silver bromide aqueous electrolyte interface. A single crystal silver bromide electrode (SCr–AgBr) was used to measure the inner surface potential ( Ψ 0) at the silver bromide aqueous electrolyte interface as a function of the activities of Br - and Ag +. Absolute values of the surface potential were calculated from electrode potentials of SCr–AgBr using the value of point of zero charge (pBr pzc = 6.9 [H.A. Hoyen, R.M. Cole, J. Colloid Interface Sci. 41 (1972) 93.]) as the value of point of zero potential. Measurements were performed in potassium nitrate aqueous solutions. The Ψ 0(pBr) function was linear and slightly dependent on the ionic strength. The reduction values of the slope with respect to the Nernst equation, expressed by the α coefficient, were 0.880, 0.935, and 0.950 at ionic strengths of 10 −4, 10 −3, and 10 −2 mol dm −3, respectively. The results were successfully interpreted by employing the surface complexation model, developed originally for metal oxides and adapted for silver halides. The thermodynamic (“intrinsic”) equilibrium constants for binding of bromide ( K n ∘ ) and silver ( K p ∘ ) ions on the corresponding sites at the silver bromide surface were evaluated as lg K n ∘ = 3.98 ; lg K p ∘ = 2.48 . Symmetrical counterion surface association was assumed and equilibrium constants were obtained as lg K NO 3 - ∘ = lg K K + ∘ = 4.30 .
ISSN:0021-9797
1095-7103
DOI:10.1016/j.jcis.2010.02.053