Coupling of Alcohols over Alkali‐Promoted Cobalt–Molybdenum Sulfide
Jakob Munkholt ChristensenPeter Arendt JensenNiels C. SchiødtAnker Degn Jensen
Abstract
Double or nothing: Higher alcohols are produced by the hydrogenation of CO with a K-promoted Co–MoS2/C catalyst. Ethanol, which is passed over the sulfide catalyst along with CO and H2, is mainly converted into 1-butanol, which indicates that alcohol condensation contributes to the build-up of higher alcohols over the sulfide catalyst. In a nitrogen atmosphere, ethanol is also in part converted into 1-butanol, although ethyl acetate is the major product.
Metrics
Citation History
Topics
Related Documents
Effects of H2S and process conditions in the synthesis of mixed alcohols from syngas over alkali promoted cobalt-molybdenum sulfide
Jakob Munkholt ChristensenPeter MortensenR. TranePeter Arendt JensenAnker Degn Jensen
Effects of Feed Composition and Feed Impurities in the Catalytic Conversion of Syngas to Higher Alcohols over Alkali-Promoted Cobalt–Molybdenum Sulfide
Jakob Munkholt ChristensenPeter Arendt JensenAnker Degn Jensen
Electronic properties of unsupported cobalt-promoted molybdenum sulfide
Conversion of synthesis gas into alcohols on supported cobalt-molybdenum sulfide catalysts promoted with potassium
V. S. DorokhovД. И. ИшутенкоП. А. НикульшинKlara V. KotsarevaElena A. TrusovaT. N. BondarenkoО. Л. ЕлисеевА. Л. ЛапидусN. N. RozhdestvenskayaВ. М. Коган
Screening of Alkali-Promoted Vapor-Phase-Synthesized Molybdenum Sulfide Catalysts for the Production of Alcohols from Synthesis Gas
Zhenyu LiuXianguo LiMichael R. CloseEdwin L. KuglerJeffrey L. PetersenDady B. Dadyburjor