The use of a Ni–CoOx–Al2O3 mixed metal–metal oxide catalyst was proposed for the one-pot direct conversion of furfural (FFA) to 1,5-pentanediol (1,5-PDO), which afforded a high yield (47.5%) at 160 °C and at an initial H2 pressure of 3 MPa for 6 h in ethanol. Proximity between the Ni0 and oxygen-vacant CoOx (Ov–CoOx) sites favored the dissociative adsorption of H2 molecules on Ni0 and subsequent hydrogen spillover to Ov–CoOx. The hydrogenation of the C[dbnd]O group of FFA produced furfuryl alcohol, which was then adsorbed on the Coδ+ center of the Ov–CoOx site in a η1–(O)–alcoholic configuration, where subsequent C–O bond cleavage produced 1,5-PDO. Catalytic activity loss through the oxidation of the Ni0 and Ov sites could be mitigated by reactivation under H2. Thus, the developed Ni–CoOx–Al2O3 catalyst has potential for efficient, low-cost, and environmentally friendly 1,5-PDO production from FFA.
This research was supported by the Bio & Medical Technology Development Program of the National Research Foundation ( NRF ) funded by the Korean government through the Ministry of Science and ICT ( MSIT ) (No. 2022M3A9F3017700 ). Additional support was provided by NRF grants funded by MSIT (Nos. 2020M1A2A2080430 and 2020H1D3A2A02085762 ). We used the 8 C synchrotron beamline of the Pohang Accelerator Laboratory (Republic of Korea) under contact no. 2021\u20133rd-8 C-010.
