As the global community takes action to address the issue of climate change, there is a growing interest in Carbon Capture and Utilization (CCU) technologies. The present study explored catalysts for the direct conversion of carbon dioxide into hydrocarbons via a one-step Fischer-Tropsch synthesis. Cobalt, recognized for its FT activity at low temperatures, was selected as the active metal. Perovskite-derived catalysts were utilized, in which Co nanoparticles deposited through reduction of oxygen-vacancy-rich structures. The performance of catalyst was evaluated based on several key metrics, including the conversion of carbon dioxide, the yield of methane, the selectivity of carbon-carbon bonds, and the probability of chain growth.