Depressing the hydrogenation and decomposition reaction in H2O2 synthesis by supporting AuPd on oxygen functionalized carbon nanofibers

Villa, Alberto; Freakley, Simon J.; Schiavoni, Marco; Edwards, Jennifer K.; Hammond, Ceri; Veith, Gabriel M.; Wang, Wu; Wang, Di; Prati, Laura; Dimitratos, Nikolaos; Hutchings, Graham J.

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Royal Society of Chemistry, Catalysis Science & Technology, 3(6), p. 694-697

DOI: 10.1039/c5cy01880c

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Depressing the hydrogenation and decomposition reaction in H2O2 synthesis by supporting AuPd on oxygen functionalized carbon nanofibers

Journal article published in 2016 by Alberto Villa, Simon J. Freakley, Marco Schiavoni, Jennifer K. Edwards, Ceri Hammond, Gabriel M. Veith, Wu Wang, Di Wang

, Laura Prati, Nikolaos Dimitratos, Graham J. Hutchings

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Abstract

In this work, we show that the introduction of acidic oxygen functionalities to the surface of carbon nanofibers serves to depress the hydrogenation and the decomposition of hydrogen peroxide during the direct synthesis of H2O2. Moreover, the presence of acidic groups enhances the H2O2 productivity in the case of supported AuPd nanoparticles.

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Depressing the hydrogenation and decomposition reaction in H2O2 synthesis by supporting AuPd on oxygen functionalized carbon nanofibers

Abstract