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Research Article

Synthesis of surface controlled nickel/palladium hydride nanodendrites with high performance in benzyl alcohol oxidation

Zipeng Zhao1,§Michelle M. Flores Espinosa1,§Jihan Zhou2,4Wang Xue3Xiangfeng Duan3,4Jianwei Miao2,4Yu Huang1,4 ( )
Department of Materials Science and Engineering,University of California,Los Angeles, CA,90095,USA;
Department of Physics and Astronomy,University of California,Los Angeles, CA,90095,USA;
Department of Chemistry and Biochemistry,University of California,Los Angeles, CA,90095,USA;
California Nanosystems Institute,University of California,Los Angeles, CA,90095,USA;

§ Zipeng Zhao and Michelle M. Flores Espinosa contributed equally to this work.

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Abstract

Benzaldehyde byproduct is an imperative intermediate in the production of fine chemicals and additives. Tuning selectivity to benzaldehyde is therefore critical in alcohol oxidation reactions at the industrial level. Herein, we report a simple but innovative method for the synthesis of palladium hydride and nickel palladium hydride nanodendrites with controllable morphology, high stability, and excellent catalytic activity. The synthesized dendrites can maintain the palladium hydride phase even after their use in the chosen catalytic reaction. Remarkably, the high surface area morphology and unique interaction between nickel-rich surface and palladium hydride (β-phase) of these nanodendrites are translated in an enhanced catalytic activity for benzyl alcohol oxidation reaction. Our Ni/PdH0.43 nanodendrites demonstrated a high selectivity towards benzaldehyde of about 92.0% with a conversion rate of 95.4%, showing higher catalytic selectivity than their PdH0.43 counterparts and commercial Pd/C. The present study opens the door for further exploration of metal/metal-hydride nanostructures as next-generation catalytic materials.

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Nano Research
Pages 1467-1472

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Cite this article:
Zhao Z, Flores Espinosa MM, Zhou J, et al. Synthesis of surface controlled nickel/palladium hydride nanodendrites with high performance in benzyl alcohol oxidation. Nano Research, 2019, 12(6): 1467-1472. https://doi.org/10.1007/s12274-019-2413-9
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Received: 01 March 2019
Revised: 08 April 2019
Accepted: 09 April 2019
Published: 29 May 2019
© Tsinghua University Press and Springer-Verlag GmbH Germany, part of Springer Nature 2019