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Hydrogenation is a key reaction in both the food and petrochemical industries, where it is used to reduce carbon-carbon double bonds. Without a catalyst, hydrogenation reactions require extreme temperatures to occur, meaning catalysts are essential for the reaction to be industrially useful. During the past decade, the properties of many carbon nanomaterials that are relevant to hydrogenation catalysis have been described, including carbon nanotubes (CNTs), carbon nanofibers (CNFs), carbon nanohorns (CNHs), graphene oxide (GO), reduced graphene oxides (rGO) and fullerenes, that are relevant to…mehr

Produktbeschreibung
Hydrogenation is a key reaction in both the food and petrochemical industries, where it is used to reduce carbon-carbon double bonds. Without a catalyst, hydrogenation reactions require extreme temperatures to occur, meaning catalysts are essential for the reaction to be industrially useful. During the past decade, the properties of many carbon nanomaterials that are relevant to hydrogenation catalysis have been described, including carbon nanotubes (CNTs), carbon nanofibers (CNFs), carbon nanohorns (CNHs), graphene oxide (GO), reduced graphene oxides (rGO) and fullerenes, that are relevant to hydrogenation catalysis, have been described. For many of these the production methods have advanced to the commercial stage. Numerous studies on the development of catalysts on carbon nano-supports have appeared in the scientific literature and these catalysts have shown remarkable activity and specificity.
Carbon Nanomaterials in Hydrogenation Catalysis is a valuable reference for researchers and chemical engineers working on improving hydrogenation processes and those interested in applications for carbon nanomaterials. Covering their production, modification and applications as a catalyst support this book provides an in-depth review of the current state-of-the art in using carbon nanomaterials for hydrogenation reactions.


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Autorenporträt
Edward Furimsky obtained his PhD degree in 1971 at university of Ottawa under the direction of Prof. K.J. Laidler. After two years stay at NRC in Ottawa as a postdoctoral fellow, he joined the research group of Prof. C.H. Amberg at Carleton University in Ottawa to conduct research in heterogeneous catalysis. This included the projects on development of catalysts for hydroprocessing of feeds derived from petroleum, oil shale, coal and biomass. He is the author and/or co-author of some 130 articles published in peer reviewed scientific journals including several authoritative reviews, e.g., Catalyst Deactivation and Regeneration, Hydrogen Activation, Hydrodenitrogenation of Petroleum, Hydrodeoxygenation and others. His book on Catalyst for Upgrading Heavy Petroleum Feeds provides detailed accounts of problems in designing and selecting suitable catalysts for upgrading problematic petroleum feeds. Recently, the 2nd edition of the Handbook of Spent Hydroprocessing Catalysts was published. In addition, he has published two other fuels related books.