Selective alkyne hydrogenation over nano-metal systems: Closing the gap between model and real catalysts for industrial applications
Details
Download: Cardenas-CHIMIA-2012-PV.pdf (365.33 [Ko])
State: Public
Version: Final published version
State: Public
Version: Final published version
Serval ID
serval:BIB_4E24CA33F464
Type
Article: article from journal or magazin.
Collection
Publications
Institution
Title
Selective alkyne hydrogenation over nano-metal systems: Closing the gap between model and real catalysts for industrial applications
Journal
Chimia
ISSN
0009-4293
Publication state
Published
Issued date
2012
Peer-reviewed
Oui
Volume
66
Number
9
Pages
681-686
Language
english
Abstract
The relationship between catalytic response and properties of the active phase is difficult to establish in classical heterogeneous catalysis due to the number of variables that can affect catalytic performance. Ultrahigh-vacuum surface methods applied to model catalyst surfaces are useful tools to assess fundamental issues related to catalytic processes but they are limited by the significant differences with catalysts in the working state. In an attempt to overcome this issue, (unsupported) nano-metal systems with controlled size and shape have been synthesized and tested in selective alkyne hydrogenation. The results revealed a dependency of nano-particles (NPs) morphology (size and shape) and allowed the identification of the active sites for this type of reaction. The nature of the stabilizer (steric and electrostatic stabilization) used in the NPs preparation has been shown to influence catalytic performance. The tailored active phase was subsequently immobilized on suitable nano- and micro-structured inorganic (e.g. 3D sintered metal fibers) supports with controlled surface properties in order to corroborate if the results obtained on the optimized nano-metal systems could be extrapolated to real catalysts. This article highlights the advantages and limitations of the analysis of selective alkyne hydrogenation over nano-metal systems that close the gap between model and real catalysts where the main challenges that lie ahead are summarized.
Keywords
ALKYNE, MONODISPERSED COLLOIDS, SELECTIVE HYDROGENATION, SUPPORTED PALLADIUM CATALYST
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Create date
12/12/2017 14:49
Last modification date
20/08/2019 14:03