Effect of Co, Cu, and Zn on FeAlK catalysts in CO2 hydrogenation to C5+ hydrocarbons

Abstract

Direct CO₂ hydrogenation to long-chain hydrocarbons can mitigate global warming by extensively replacing fossil fuels. However, designing a suitable catalyst with high catalytic activity and C₅₊ hydrocarbon selectivity continues to be a crucial challenge. Herein, we investigate the promotional effect of Co, Cu, and Zn (Me, hereinafter) addition to FeAlK, which is used in long-chain hydrocarbon production from CO₂ hydrogenation. Generally, the addition of Me facilitated ferrite and carbide formation, thereby increasing CO₂ conversion and C₅₊ selectivity. However, no strong correlation was observed between phase composition and catalyst performance by inter-catalyst comparisons. Despite the addition of a small amount of Zn, the CO₂ conversion and C₅₊ selectivity increased significantly. XRD, CO₂-TPD, and XPS results suggest that the easy formation of a Zn ferrite alloy and the resulting large number of basic sites are responsible for the superior performance of Zn–FeAlK in CO₂ hydrogenation to long-chain hydrocarbon production.