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    Bridging Homogeneously and Heterogeneously Catalyzed Higher‐Alcohol Synthesis via Cobalt‐Based Catalysts

    New search for: Telaar, Pascal
    New search for: Diehl, Patrick
    New search for: Muhler, Martin

    Industrial implementation of the heterogeneously catalyzed CO hydrogenation to higher alcohols is highly desired, but deeper insights into the reaction mechanisms and active sites are still needed. This review summarizes the established and well‐investigated cobalt‐based catalysts and the mechanisms resulting in oxygenate formation. Recently, a cobalt‐based system derived from Mn‐Co‐based Prussian blue analogs by pyrolysis has shown great potential for higher‐alcohol synthesis. In addition to the heterogeneously catalyzed reaction pathways involved in Fischer‐Tropsch synthesis and methanol synthesis, the homogeneously catalyzed reaction pathways like reductive olefin hydroformylation and reductive primary alcohol carbonylation were found to play a key role.

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    Bridging Homogeneously and Heterogeneously Catalyzed Higher‐Alcohol Synthesis via Cobalt‐Based Catalysts

    New search for: Telaar, Pascal
    New search for: Diehl, Patrick
    New search for: Muhler, Martin

    Industrial implementation of the heterogeneously catalyzed CO hydrogenation to higher alcohols is highly desired, but deeper insights into the reaction mechanisms and active sites are still needed. This review summarizes the established and well‐investigated cobalt‐based catalysts and the mechanisms resulting in oxygenate formation. Recently, a cobalt‐based system derived from Mn‐Co‐based Prussian blue analogs by pyrolysis has shown great potential for higher‐alcohol synthesis. In addition to the heterogeneously catalyzed reaction pathways involved in Fischer‐Tropsch synthesis and methanol synthesis, the homogeneously catalyzed reaction pathways like reductive olefin hydroformylation and reductive primary alcohol carbonylation were found to play a key role.

    Access

    Check access
    Check availability in my library
    Order at Subito €

    Bridging Homogeneously and Heterogeneously Catalyzed Higher‐Alcohol Synthesis via Cobalt‐Based Catalysts

    New search for: Telaar, Pascal
    New search for: Diehl, Patrick
    New search for: Muhler, Martin

    Industrial implementation of the heterogeneously catalyzed CO hydrogenation to higher alcohols is highly desired, but deeper insights into the reaction mechanisms and active sites are still needed. This review summarizes the established and well‐investigated cobalt‐based catalysts and the mechanisms resulting in oxygenate formation. Recently, a cobalt‐based system derived from Mn‐Co‐based Prussian blue analogs by pyrolysis has shown great potential for higher‐alcohol synthesis. In addition to the heterogeneously catalyzed reaction pathways involved in Fischer‐Tropsch synthesis and methanol synthesis, the homogeneously catalyzed reaction pathways like reductive olefin hydroformylation and reductive primary alcohol carbonylation were found to play a key role.

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    Title:

    Bridging Homogeneously and Heterogeneously Catalyzed Higher‐Alcohol Synthesis via Cobalt‐Based Catalysts

    Contributors:

    Telaar, Pascal (author) / Diehl, Patrick (author) / Muhler, Martin (author)

    Published in:

    Chemie Ingenieur Technik ; 96 ; 1244-1255

    Publication date:

    2024-09-01

    Size:

    12 pages

    ISSN:

    0009-286X , 1522-2640

    DOI:

    https://doi.org/10.1002/cite.202400017

    Type of media:

    Article (Journal)

    Type of material:

    Electronic Resource

    Language:

    English

    Keywords:

    Carbonylation , Higher‐alcohol synthesis , Hydroformylation , Prussian blue analogs , Reaction network

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