Decarbonylation of heptanoic acid over carbon-supported platinum nanoparticles

The decarbonylation and decarboxylation of heptanoic acid over carbon-supported Pt nanoparticles were studied in a continuous flow fixed bed reactor at 573 K and 37 bar for liquid-phase operation and 1 bar for gas-phase operation. Under liquid-phase conditions, the TOF over Pt supported on Norit car...

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Bibliographic Details
Published in:Green chemistry : an international journal and green chemistry resource : GC 2014, Vol.16 (2), p.683-694
Main Authors: Lopez-Ruiz, Juan A, Davis, Robert J
Format: Article
Language:English
Subjects:
Carbon
Catalysts
Conversion
Decarboxylation
Nanoparticles
Olefins
Platinum
Selectivity
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Summary:The decarbonylation and decarboxylation of heptanoic acid over carbon-supported Pt nanoparticles were studied in a continuous flow fixed bed reactor at 573 K and 37 bar for liquid-phase operation and 1 bar for gas-phase operation. Under liquid-phase conditions, the TOF over Pt supported on Norit carbon was 0.0052 s −1 and independent of Pt loading. At very low conversions, approaching zero, the product selectivity was consistent with decarbonylation as the primary reaction, producing mostly hexenes and CO. As conversion increased from 1% to 5% at 37 bar, substantial amounts of hexane and CO 2 were observed, presumably from secondary side reactions such as water-gas shift (WGS) and hydrogenation instead of direct decarboxylation. The terminal olefin was observed with high selectivity (57%) only during gas-phase operation (1 bar) which facilitated transport of the olefin away from the Pt that also catalyzed double bond isomerization. Some sintering of the Pt metal particles during reaction of heptanoic acid was observed by X-ray diffraction analysis of the spent catalyst. Catalyst regeneration studies were performed over spent catalyst but they failed to restore any catalytic activity. Decarbonylation of heptanoic acid over Pt produced hexenes and CO at low conversions whereas higher conversions produced hexane and CO 2 .
ISSN:1463-9262
1463-9270
DOI:10.1039/c3gc41287c