CO2 adsorption and photocatalytic reduction mechanisms on Ti-terminated CaTiO3 (100) surface: a DFT study
Abstract
Photoreduction of CO2 is an important alternative approach aimed to reduce the CO2 atmospheric content which is responsible of the global warming. The development of an efficient photocatalyst can strongly improve the efficiency and selectivity of the by-products of such a process. Recently, CaTiO3 has been used as an alternative semiconductor catalyst due to its attractive properties. In this study, we use calculations of the electronic structure of first principles to investigate for the first time the general reaction mechanism that leads to the main value-added by-products of HCOOH, CO, H3COH and CH4 byproducts, focusing on the reactions of adsorption, activation and reduction reactions of CO2 molecules on the Ti-terminated CaTiO3 (100) surface. We compute adsorption energies of the various intermediate configurations and activation energy barriers of the chemical reaction pathways. Our results show that CO2 can be activated by charge transfer of excess electrons leading to a CO2 anion that probably gives HCOO by the first reduction; however, the second hydrogenation to HCOOH is impeded by the prohibitive energy barrier. In particular, activated CO2 can also easily undergo decomposition, which facilitates CO production. Afterwards, we discuss the possible reaction mechanisms of CO photoreduction towards H3COH and CH4 value-added products, taking into account the experimental evidence that only CO and CH4 have been detected. The reaction pathway generally follows the most energetically convenient routes characterized by activated intermediates. Even though H3COH could be finally produced, its strong adsorption (Eads of -0.93 eV) and its promoted decomposition to H3CO+H on the surface could explain why it has not been detected, as opposed to CH4 whose Eads is only -0.22 eV due to its non-polar nature.
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