TiO2 is a relevant catalytic material, and its chemistry in aqueous environment is a challenging aspect to address. Also, the morphology of TiO2 particles at the nanoscale is often complex, spanning from faceted to spherical. In this work, we study the pH- and facet-dependent surface chemistry of TiO2/water interfaces by performing ab initio molecular dynamics simulations with the grand canonical formulation of species in solution. We first determined the acid-base equilibrium constants at the interface, which allows us to estimate the pH at the point of zero charge, an important experimental observable. Then, based on simulated equilibrium constants, we predict the amount of H+, OH-, and adsorbed H2O species present on the surfaces as a function of the pH, a relevant aspect for water splitting semi-reactions. We approximated the complex morphology of TiO2 particles by considering the rutile (110) and (011), and anatase (101), (001), and (100) surfaces.

Maleki, F., Di Liberto, G., Pacchioni, G. (2023). pH- and Facet-Dependent Surface Chemistry of TiO2 in Aqueous Environment from First Principles. ACS APPLIED MATERIALS & INTERFACES, 15(8), 11216-11224 [10.1021/acsami.2c19273].

pH- and Facet-Dependent Surface Chemistry of TiO2 in Aqueous Environment from First Principles

Maleki F.;Di Liberto G.
;
Pacchioni G.
2023

Abstract

TiO2 is a relevant catalytic material, and its chemistry in aqueous environment is a challenging aspect to address. Also, the morphology of TiO2 particles at the nanoscale is often complex, spanning from faceted to spherical. In this work, we study the pH- and facet-dependent surface chemistry of TiO2/water interfaces by performing ab initio molecular dynamics simulations with the grand canonical formulation of species in solution. We first determined the acid-base equilibrium constants at the interface, which allows us to estimate the pH at the point of zero charge, an important experimental observable. Then, based on simulated equilibrium constants, we predict the amount of H+, OH-, and adsorbed H2O species present on the surfaces as a function of the pH, a relevant aspect for water splitting semi-reactions. We approximated the complex morphology of TiO2 particles by considering the rutile (110) and (011), and anatase (101), (001), and (100) surfaces.
Articolo in rivista - Articolo scientifico
ab initio molecular dynamics; DFT; pH dependence; solid/water interface; TiO2;
English
14-feb-2023
2023
15
8
11216
11224
open
Maleki, F., Di Liberto, G., Pacchioni, G. (2023). pH- and Facet-Dependent Surface Chemistry of TiO2 in Aqueous Environment from First Principles. ACS APPLIED MATERIALS & INTERFACES, 15(8), 11216-11224 [10.1021/acsami.2c19273].
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Utilizza questo identificativo per citare o creare un link a questo documento: https://hdl.handle.net/10281/415862
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