Nanocast mesoporous mixed metal oxides for catalytic applications |
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Institution: | Department of Chemistry and Centre de Recherche sur les Matériaux Avancés (CERMA), Université Laval, 1045, avenue de la Médecine, Quebec City, G1V 0A6 Canada |
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Abstract: | Since the initial discovery of ordered mesoporous silica in early 1990s, considerable innovations were achieved regarding their synthesis, characterization and applications. One of the best outcomes of these intense research efforts is the development of a solid templating method called “nanocasting”, which is based on using mesoporous silica (or carbon) as a rigid template. This solid-to-solid replication method opened the pathway for synthesizing high surface area non-silica mesostructured materials that are challenging to obtain through conventional self-assembly processes which are based on amphiphilic soft structure-directing agents. In particular, the replicated metal oxide mesostructures obtained by this method were found to be highly versatile for a wide range of applications, especially in catalysis, owing to their large specific surface area. Furthermore, the nanocasting method is particularly suited for the synthesis of mixed metal compositions, favored by the possible confinement of mixed precursors in the nanopores of the template. In this account, we discuss some of the recent developments regarding the synthesis of nanocast mixed metal oxides and their perspectives of catalytic applications. It is here the choice of the authors to place emphasis on a few representative examples of compositions (e.g., non-noble metal-based catalysts, perovskites) and catalytic reactions (e.g., hydrogen production, gas-phase oxidation). |
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Keywords: | Nanocasting Mixed metal oxides High surface area Oxidation Hydrogen Perovskites Nanomoulage Oxydes métalliques mixtes Surface spécifique Oxydation Hydrogène Pérovskites |
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