Catalytic Oxidation of Methane into Methanol over Copper-Exchanged Zeolites with Oxygen at Low Temperature
Author(s)
Narsimhan, Karthik; Iyoki, Kenta; Dinh, Kimberly Tam; Roman, Yuriy
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The direct catalytic conversion of methane to liquid oxygenated compounds, such as methanol or dimethyl ether, at low temperature using molecular oxygen is a grand challenge in C–H activation that has never been met with synthetic, heterogeneous catalysts. We report the first demonstration of direct, catalytic oxidation of methane into methanol with molecular oxygen over copper-exchanged zeolites at low reaction temperatures (483–498 K). Reaction kinetics studies show sustained catalytic activity and high selectivity for a variety of commercially available zeolite topologies under mild conditions (e.g., 483 K and atmospheric pressure). Transient and steady state measurements with isotopically labeled molecules confirm catalytic turnover. The catalytic rates and apparent activation energies are affected by the zeolite topology, with caged-based zeolites (e.g., Cu-SSZ-13) showing the highest rates. Although the reaction rates are low, the discovery of catalytic sites in copper-exchanged zeolites will accelerate the development of strategies to directly oxidize methane into methanol under mild conditions.
Date issued
2016-06Department
Massachusetts Institute of Technology. Department of Chemical EngineeringJournal
ACS Central Science
Publisher
American Chemical Society (ACS)
Citation
Narsimhan, Karthik; Iyoki, Kenta; Dinh, Kimberly and Román-Leshkov, Yuriy. “Catalytic Oxidation of Methane into Methanol over Copper-Exchanged Zeolites with Oxygen at Low Temperature.” ACS Central Science 2, no. 6 (June 2016): 424–429 © 2016 American Chemical Society
Version: Final published version
ISSN
2374-7943
2374-7951