Enhanced CO2 Conversion to CO by Silica-Supported Perovskite Oxides at Low Temperatures

Repurposing of CO2 to valuable hydrocarbons is crucial for energy security and a balanced carbon cycle. Reverse water gas shift chemical looping (RWGS-CL) is capable of efficient CO2 to CO conversion at a low temperature of,similar to 600 degrees C with unprecedented rates using the La0.75Sr0.25FeO3 (LSF) perovskite-type oxide amalgamated with silica. The LSF/SiO2 composite (25% LSF by mass) promotes a notable extent of oxygen vacancies in the active phase, a key parameter for CO, conversion. In each of eight RWGS-CL cycles, CO generation yields of LSF/SiO2 surpass those of LSF alone by about 200%, producing 2.6 mmol of CO g(isF)(-1) at a peak rate of 0.8 mmol CO g(LsF)(-1) min(-1). This significant improvement is concomitant with a decreased average LSF crystallite size retained at these low thermochemical reaction temperatures. Evidence of this enhancement points to perovskite particle size reduction by silica, lattice strain induced by the support, and curtailed quantities of secondary phases that limit accessibility to active surfaces. In this contribution, an appropriate stable platform for improving earth abundancy in perovskite-based redox materials is demonstrated for industrial scale low-temperature CO2 thermochemical conversion.