4.8 Article

Fabrication of highly dispersed/active ultrafine Pd nanoparticle supported catalysts: a facile solvent-free in situ dispersion/reduction method

Journal

GREEN CHEMISTRY
Volume 19, Issue 11, Pages 2646-2652

Publisher

ROYAL SOC CHEMISTRY
DOI: 10.1039/c7gc00262a

Keywords

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Funding

  1. National Science Foundation of China [21173119, 21273109, 21303083]
  2. Natural Science Foundation of Jiangsu Province [BK20130563]
  3. Specialized Research Fund for the Doctoral Program of Higher Education [20130091120045]
  4. Fundamental Research Funds for the Central Universities

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The development of sustainable routes for the synthesis of noble metal supported catalysts is of high importance because of their wide applications on a large scale in the catalysis field. Herein we report a facile solvent-free solid-state dispersion route to fabricate highly dispersed ultrafine palladium nanoparticle supported catalysts. In the first step, a noble metal precursor Pd(acac) 2 was dispersed spontaneously by treating the physical mixture of Pd(acac) 2 and catalyst support hydroxyapatite (HAP) at 120 degrees C under a flow of N-2. Subsequent H-2 reduction results in the formation of two kinds of Pd particles. In situ reduction at 120 degrees C is essential for preparing highly dispersed Pd nanoparticles (similar to 1.2 nm, (a)1Pd/HAP-SSD) and cooling-down reduction leads to the formation of larger Pd nanoparticles (similar to 4 nm, (b)1Pd/HAP-SSD). The as-prepared a1Pd/HAP-SSD exhibits higher activity for phenol hydrogenation than (b)1Pd/HAP-SSD and that obtained by a traditional wet impregnation method, due to the highly dispersed ultrafine Pd-0 nanoparticles obtained by in situ dispersion/reduction. Compared with conventional wet chemistry-based methods, the synthesis route in this work simplifies the synthesis process, avoids producing large polluted wastes, and enhances the dispersion of noble metals. This may open a new way to prepare highly dispersed/active noble metal supported catalysts and is also potentially of high importance for the green production of noble metal supported catalysts on a large scale in the future.

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