4.6 Article

Connecting Thermodynamics of Alkali Ion Exchange on the Quartz (101) Surface with Density Functional Theory Calculations

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JOURNAL OF PHYSICAL CHEMISTRY A
卷 126, 期 26, 页码 4286-4294

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AMER CHEMICAL SOC
DOI: 10.1021/acs.jpca.2c02697

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  1. U.S. Department of Energy (DOE) , O ffi ce of Science, O ffi ce of Basic Energy Sciences, Chemical Sciences, Geosciences, and Biosciences Division (Geosciences Program) [DE-SC0012186]
  2. U.S. Department of Energy (DOE) [DE-SC0012186] Funding Source: U.S. Department of Energy (DOE)

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Periodic plane-wave density functional theory calculations were conducted to model the exchange of Li+ with Na+, K+, or Rb+ on the alpha-quartz (SiO2) (101) surface. The calculated heats of exchange showed a consistent trend with experimental results, but the magnitude was significantly higher in the calculations. Possible reasons for this discrepancy were discussed.
ABSTRACT: Periodic plane-wave density functional theory (DFT) calculations were performed on the alpha-quartz (SiO2) (101) surface to model exchange of adsorbed Li+ and either Na+, K+, or Rb+ in inner- and outer-sphere adsorbed, and aqueous configurations, which are charge-balanced with 2 Cl-. SiO- or SiOH groups represented the adsorption surface sites. The SiO- models included 58 H2O and 2 H3O+ molecules to approximate an aqueous environment, whereas the SiOH models had 59 H2O and 1 H3O+ molecules. The goal of this work is to calculate the heats of exchange for these alkali ions and to compare the results with those measured by flow microcalorimetry to ascertain the most probable mechanisms for these cations exchanging on the alpha-quartz (101) surface. Energy minimizations of each alkali ion adsorbed as outer-sphere complexes on SiOH surface sites, and as inner- and outer-sphere complexes on SiO- surface sites, were used to determine the energy of exchange (Delta Eex) with Li+ for comparison with experimentally determined Delta Hex values. Here, we present a novel method for calculating Delta Eex using the difference in energies of geometry-optimized end member models. The aqueous and surface structures produced are similar to those observed experimentally. Although the trend for the calculated Delta Eex values is consistent with those from the heats of exchange measured experimentally, the magnitude of our modeled Delta Eex results is significantly larger than select experimental data from the literature [Peng, L. et al. Zeta-Potentials and Enthalpy Changes in the Process of Electrostatic Self-Assembly of Cations on Silica Surface. Powder Technol. 2009, 193(1), 46-49]; we discuss the reasons for this discrepancy herein. The relative energy differences of the various configurations modeled have implications for the measurements of the surface charge via potentiometric titrations due to the more active role of alkali cations in quartz surface chemistry that have been previously considered as inert background electrolytes.

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