The sol immobilization technique is widely employed for the synthesis of size- and morphology-controlled supported nanoparticles. The protective agent adsorbed on the surface of nanoparticles can substantially affect the catalytic performances, by limiting the access to the active sites as well as by influencing metal–support and reactant–metal interactions, thus altering not only the activity but also the selectivity of the reaction. Herein, we studied the effect of the capping agent (specifically polyvinyl alcohol, PVA) removal on the catalytic activity and selectivity of gold nanoparticles supported on different carbon based materials using the glycerol oxidation as test reaction.
Metal nanoparticles on carbon based supports : The effect of the protective agent removal / S. Campisi, C.E. Chan-Thaw, D. Wang, A. Villa, L. Prati. - In: CATALYSIS TODAY. - ISSN 0920-5861. - 278:Part 1(2016 Dec 01), pp. 91-96. ((Intervento presentato al convegno European Workshop on Selective Oxidation - Selectivity in Oxidation - Key to New Resources Valorization (ISO) during the 12th European Congress on Catalysis - Balancing the Use of Fossil and Renewable Resources (Europacat) : 30 August - 4 September tenutosi a Kazan (Fed. Russa) nel 2015 [10.1016/j.cattod.2016.04.026].
Metal nanoparticles on carbon based supports : The effect of the protective agent removal
S. CampisiPrimo
;C.E. Chan-ThawSecondo
;A. VillaPenultimo
;L. Prati
2016
Abstract
The sol immobilization technique is widely employed for the synthesis of size- and morphology-controlled supported nanoparticles. The protective agent adsorbed on the surface of nanoparticles can substantially affect the catalytic performances, by limiting the access to the active sites as well as by influencing metal–support and reactant–metal interactions, thus altering not only the activity but also the selectivity of the reaction. Herein, we studied the effect of the capping agent (specifically polyvinyl alcohol, PVA) removal on the catalytic activity and selectivity of gold nanoparticles supported on different carbon based materials using the glycerol oxidation as test reaction.
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