Abstract:
Standard partial molal thermodynamic properties of surface species in a single-site 2pKA triple-layer model (TLM) for rutile in NaCl electrolyte, consistent with the SUPCRT92-98 data, were estimated at temperatures T = 0 to 250°C and saturated vapor pressure PSAT using a Gibbs energy minimization (GEM) approach (Kulik, 1999) and hydrothermal potentiometric titration data (Machesky et al., 1998a). Evaluation strategy was based on conventional setting to zero of standard state entropy and heat capacity effects of the “surface hydronium desorption” reaction >O0.5H2⁺ = >O0.5H⁰ + Haq⁺, with one-term temperature extrapolation appropriate. The standard state properties of the “surface water dissociation” reaction >O0.5H⁰ = >O0.5⁻ + Haq⁺ in a three-term extrapolation, with Cp°298(>O0.5⁻) assumed equal to Cp°298(OHaq⁻) and ΔS°298 estimated from enthalpy of rutile surface protonation in water ΔH°prot,298, yielded a very good match of predicted pristine point of zero charge (pHPPZC) and measured point of zero charge (pHPZC) on rutile to T = 250°C. Correlation of ΔH°prot,298 for various oxides versus pHPPZC suggests that the entropy ΔS°prot,298 = 25 ± 4 J K⁻¹ mol⁻¹ may be constant for all oxide surfaces, pHPPZC(T) be hence a function of pHPPZC at T0 = 25°C only: pHPPZC,T = −29.134 + T0/T(pHPPZC,T0 + 3.2385) + 4.545ln T.