Photocatalytic CO₂ Reduction to CO over Fe-loaded TiO₂/Nanoclay Photocatalyst

Abstract

Fe-promoted titanium dioxide (TiO₂) nanoparticles dispersed in Montmorillonite (MMT) clay for dynamic photocatalytic carbon dioxide (CO₂) reduction to carbon monoxide (CO) and hydrocarbons in a monolith photo-reactor has been investigated. MMT-clay supported Fe/TiO₂ nanocomposites were prepared by a controlled and direct sol-gel method and were dip-coated over the monolith micro-channels. The performance of Fe-loaded MMT/TiO₂ nano-catalyst for CO₂ reduction by H₂ toward CO evolution was evaluated in a continuous operation of photo-reactor under UV-light irradiation. The photo-activity of TiO₂ catalyst dispersed in MMT and loaded with Fe was significantly enhanced. The maximum yield of CO over 3 wt% Fe - 10 wt%MMT-loaded TiO₂ catalyst reached to 289.30 µmole g-cat^-1 h^-1 at selectivity 99.61 %, is considerably higher than the amount produced over the MMT/TiO₂ (25.95 µmole g-cat^-1 h^-1) and the pure TiO₂ (8.52 µmole g-cat^-1 h^-1) catalyst. The other products observed with adequate amounts were CH₄ and C₂H₆. These results revealedsignificantly enhanced photo-activity of TiO₂ loaded with Fe and dispersed over MMT. The enhanced CO evolution was evidently due to larger illuminated active surface area, higher adsorption process inside the monolith micro-channels and hindered charges recombination rate by Fe. This development has confirmed higher photoactivity of Fe-MMT/TiO₂ photo-catalyst for continuous CO₂ photo-reduction to cleaner fuels.