Journal
CHEMCATCHEM
Volume 7, Issue 7, Pages 1105-1111Publisher
WILEY-V C H VERLAG GMBH
DOI: 10.1002/cctc.201500123
Keywords
copper; hydrogenation; kinetics; methanol; zinc
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Funding
- U.S. Department of Energy, Office of Science, Office of Basic Energy Sciences
- Bayerisches Wissenschaftsministerium [NW-0810-0002]
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Methanol, an important chemical, fuel additive, and precursor for clean fuels, is produced by hydrogenation of carbon oxides over Cu-based catalysts. Despite the technological maturity of this process, the understanding of this apparently simple reaction is still incomplete with regard to the reaction mechanism and the active sites. Regarding the latter, recent progress has shown that stepped and ZnOx-decorated Cu surfaces are crucial for the performance of industrial catalysts. Herein, we integrate this insight with additional experiments into a full microkinetic description of methanol synthesis. In particular, we show how the presence or absence of the Zn promoter dramatically changes not only the activity, but unexpectedly the reaction mechanism itself. The Janus-faced character of Cu with two different sites for methanol synthesis, Zn-promoted and unpromoted, resolves the long-standing controversy regarding the Cu/Zn synergy and adds methanol synthesis to the few major industrial catalytic processes that are described on an atomic level.
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