Direct conversion of methane into alcohols is a promising technology for converting stranded methane reserves into liquids that can be transported in pipelines and upgraded to value-added chemicals. We demonstrate that a catalyst consisting of small nickel oxide clusters supported on ceria-zirconia (NiO/CZ) can selectively oxidize methane to methanol and ethanol in a single, steady-state process at 723 K using O2 as an abundantly available oxidant. The presence of steam is required to obtain alcohols rather than CO2 as the product of catalytic combustion. The unusual activity of this catalyst is attributed to the synergy between the small Lewis acidic NiO clusters and the redox-active CZ support, which also stabilizes the small NiO clusters.
Revised: March 3, 2020 |
Published: September 26, 2017
Citation
Okolie C., Y.F. Belhseine, Y. Lyu, M. Yung, M.H. Engelhard, L. Kovarik, and E. Stavitski, et al. 2017.Conversion of Methane into Methanol and Ethanol over Nickel Oxide on Ceria-Zirconia Catalysts in a Single Reactor.Angewandte Chemie International Edition 56, no. 44:13876-13881.PNNL-SA-123257.doi:10.1002/anie.201704704