Quantum Chemical Modeling of Ground States of CO 2 Chemisorbed on Anatase (001), (101), and (010) TiO 2 Surfaces

Abstract

To design efficient CO 2 photoreduction catalysts, we need to understand the intermediates and energetics of various reactions involved in the photoreduction of CO 2 in greater detail. As a first step in this process, the ground states of CO 2 chemisorbed on small clusters from various anatase surface planes are modeled in this study. We show that large basis sets with diffuse functions and high levels of electron correlation are needed to model the electron attached states of CO 2, which may play a role in its photoreduction. Density functional theory (DFT) calculations of CO 2 adsorbed on small TiO 2 clusters (Ti 2O 9H 10) extracted from the (010), (001), and (101) surface plane structures point to the formation of different adsorbed species depending on crystal face atomic structure. The calculated infrared (IR) spectral properties of these species are compared against experimental data. We find favorable agreement for the existence of three different surface complexes. The formation of different surfa...