Support morphology-dependent catalytic activity of the Co/CeO 2 catalyst for the aqueous-phase hydrogenation of phenol

Herein, three Co/CeO 2 catalysts with various support morphologies were prepared by Co 2 (CO) 8 decomposition at a low temperature of 180 °C on the ceria plane such as CeO 2 nanocubes (c-CeO 2 ), nanorods (r-CeO 2 ), and nanopolyhedrons (p-CeO 2 ). The Co/r-CeO 2 catalyst shows a much higher phenol conversion (82.5%) than Co/c-CeO 2 (47.9%) and Co/p-CeO 2 (24.7%) at 150 °C and 3 MPa H 2 in water. We demonstrate that the less hydrophilic Co/r-CeO 2 catalyst inhibits the adsorption of water and further promotes the adsorption of phenol. Moreover, the morphology effect and oxygen vacancies in different chemical environments of the support provide active sites for the dissociation and adsorption of phenol. The high concentration of oxygen vacancies exposed on the high active crystal plane leads to more efficient catalytic activity for the hydrogenation of phenol.