Issue 12, 2011

Efficient and recyclable catalysts for selective oxidation of polyols in H2O with molecular oxygen

Abstract

Advanced carbon materials with improved physical properties and tailored surface morphology and chemistry were developed and applied as the support for platinum nanoparticles. The carbon materials are in regular spherical form (around 100 μm) and have a scale-like surface morphology. Platinum nanoparticles of high dispersion was achieved and detailedly characterized by EPMA, TEM, and XPS. The resulting catalysts show high activity for the selective oxidation of glycol, propylene glycol, and glycerol with molecular oxygen as the oxidant. The correlation between catalytic behaviour and the materials' surface properties (active phase dispersion, support surface morphology and chemistry, and bimetallic effect) were further investigated. The recyclability and stability of the catalysts were tested over a five-run recycling experiment. No marked deactivation was observed and the transformation of the dispersion state of platinum nanoparticles during this process was detected by XPS and TEM to address the stabilizing mechanism of the carbon support for platinum nanoparticles.

Graphical abstract: Efficient and recyclable catalysts for selective oxidation of polyols in H2O with molecular oxygen

Article information

Article type
Paper
Submitted
07 Jul 2011
Accepted
30 Aug 2011
First published
30 Sep 2011

Green Chem., 2011,13, 3414-3422

Efficient and recyclable catalysts for selective oxidation of polyols in H2O with molecular oxygen

Z. Huang, F. Li, B. Chen, F. Xue, Y. Yuan, G. Chen and G. Yuan, Green Chem., 2011, 13, 3414 DOI: 10.1039/C1GC15811B

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