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Palladium sulphide – A highly selective catalyst for the gas phase hydrogenation of alkynes to alkenes

[Display omitted] •Pd4S/carbon nanofiber catalyst highly selective for alkyne to alkene hydrogenation.•High alkene selectivity possible with mixed alkyne/alkene feeds.•95% ethene and 86% propene selectivity at 100% alkyne conversion.•Bulk phase PdS can be highly selective when pre-treated appropriat...

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Bibliographic Details
Published in:Journal of catalysis 2016-08, Vol.340, p.10-16
Main Authors: McCue, Alan J., Guerrero-Ruiz, Antonio, Rodríguez-Ramos, Inmaculada, Anderson, James A.
Format: Article
Language:English
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Summary:[Display omitted] •Pd4S/carbon nanofiber catalyst highly selective for alkyne to alkene hydrogenation.•High alkene selectivity possible with mixed alkyne/alkene feeds.•95% ethene and 86% propene selectivity at 100% alkyne conversion.•Bulk phase PdS can be highly selective when pre-treated appropriately. A particular palladium sulphide phase (Pd4S) supported on carbon nanofibers is shown to be one of the most selective alkyne hydrogenation catalysts reported to date. Propyne and ethyne (in the absence of the corresponding alkene) can be converted in the gas phase to the corresponding alkene with 96% and 83% selectivity at 100% alkyne conversion. A bulk phase PdS powder (pre-reduced at 523K) also demonstrated excellent performance (79% ethene selectivity). Other bulk phase metal sulphides (Ni2S3 and CuS) were tested and whilst the nickel analogue was found to be active/selective the performance was poorer than observed with either supported or unsupported Pd sulphide. Exceptional alkene selectivity extends to mixed alkyne/alkene feeds using the Pd4S/CNF catalyst – 86% and 95% alkene selectivity for C3 and C2 mixes, respectively. This report opens up exciting possibilities for using metal sulphides as highly selective hydrogenation catalysts.
ISSN:0021-9517
1090-2694
DOI:10.1016/j.jcat.2016.05.002