The reverse water gas shift (RWGS) reaction provides a convenient approach to convert CO to CO, which facilitates to achieve the goals of carbon peaking and carbon neutrality. Herein, the Cu/CeO catalyst prepared by a co-precipitation method using a mixture of NaCO and NaOH at pH of 10 (sample Cu/CeO-10) achieved an intrinsic reaction rate of 428.4 mmol ⋅ g ⋅ h with 100 % CO selectivity at 400 °C and CO/H ratio of 1 : 4, which is much higher than Cu/CeO prepared by impregnation and other methods. Various characterizations showed the highest fraction of CuCeO solid solution in the calcined Cu/CeO-10, and formed highly dispersed Cu clusters (~2.5 nm) on partially reduced CuCeO solid solution with abundant of oxygen vacancies upon reduction. The Cu and oxygen vacancies facilitates the activation of H and CO, respectively, resulting in lowered H and CO reaction orders. As a result, the synergy between the two components enhanced the overall RWGS activity with lowered activation energy. Moreover, the optimal catalyst is very stable in 24 h stability test without detectable agglomeration of Cu clusters.
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