Versatile dual hydrogenation–oxidation nanocatalysts for the aqueous transformation of biomass-derived platform molecules

Eduardo J. García-Suárez; Alina Mariana Balu; Mar Tristany; Ana Beatriz García; Karine Philippot; Rafael Luque

doi:10.1039/c2gc35176e

Versatile dual hydrogenation–oxidation nanocatalysts for the aqueous transformation of biomass-derived platform molecules

Eduardo J. García-Suárez^*
, Alina Mariana Balu
, Mar Tristany
, Ana Beatriz García
, Karine Philippot
, Rafael Luque

^*Corresponding author for this work

Research output: Contribution to journal › Article › peer-review

53 Citations (Scopus)

Abstract

Carbon-supported Pd nanoparticles have been proved to be efficient dual hydrogenation–oxidation nanocatalysts in both the selective aqueous oxidation of benzyl alcohol and the hydrogenation of furfural in water under microwave irradiation. Nanocatalysts based on trioctylphosphine and triphenylphosphine-stabilized-Pd NPs on oxidized carbon support were found to be the most active. The presence of oxygen groups on the surface of the carbon support, particularly those of acidic character, improve the Pd NPs immobilization as well as the water affinity, and consequently the catalytic performances of the system.

Original language	English
Pages (from-to)	1434-1439
Number of pages	6
Journal	Green Chemistry
Volume	14
Issue number	5
DOIs	https://doi.org/10.1039/c2gc35176e
Publication status	Published - May 2012
Externally published	Yes

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title = "Versatile dual hydrogenation–oxidation nanocatalysts for the aqueous transformation of biomass-derived platform molecules",

abstract = "Carbon-supported Pd nanoparticles have been proved to be efficient dual hydrogenation–oxidation nanocatalysts in both the selective aqueous oxidation of benzyl alcohol and the hydrogenation of furfural in water under microwave irradiation. Nanocatalysts based on trioctylphosphine and triphenylphosphine-stabilized-Pd NPs on oxidized carbon support were found to be the most active. The presence of oxygen groups on the surface of the carbon support, particularly those of acidic character, improve the Pd NPs immobilization as well as the water affinity, and consequently the catalytic performances of the system.",

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T1 - Versatile dual hydrogenation–oxidation nanocatalysts for the aqueous transformation of biomass-derived platform molecules

AU - García-Suárez, Eduardo J.

AU - Balu, Alina Mariana

AU - Tristany, Mar

AU - García, Ana Beatriz

AU - Philippot, Karine

AU - Luque, Rafael

PY - 2012/5

Y1 - 2012/5

N2 - Carbon-supported Pd nanoparticles have been proved to be efficient dual hydrogenation–oxidation nanocatalysts in both the selective aqueous oxidation of benzyl alcohol and the hydrogenation of furfural in water under microwave irradiation. Nanocatalysts based on trioctylphosphine and triphenylphosphine-stabilized-Pd NPs on oxidized carbon support were found to be the most active. The presence of oxygen groups on the surface of the carbon support, particularly those of acidic character, improve the Pd NPs immobilization as well as the water affinity, and consequently the catalytic performances of the system.

AB - Carbon-supported Pd nanoparticles have been proved to be efficient dual hydrogenation–oxidation nanocatalysts in both the selective aqueous oxidation of benzyl alcohol and the hydrogenation of furfural in water under microwave irradiation. Nanocatalysts based on trioctylphosphine and triphenylphosphine-stabilized-Pd NPs on oxidized carbon support were found to be the most active. The presence of oxygen groups on the surface of the carbon support, particularly those of acidic character, improve the Pd NPs immobilization as well as the water affinity, and consequently the catalytic performances of the system.

UR - https://www.scopus.com/pages/publications/84860475794

U2 - 10.1039/c2gc35176e

DO - 10.1039/c2gc35176e

M3 - Article

AN - SCOPUS:84860475794

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VL - 14

SP - 1434

EP - 1439

JO - Green Chemistry

JF - Green Chemistry

IS - 5

ER -

Versatile dual hydrogenation–oxidation nanocatalysts for the aqueous transformation of biomass-derived platform molecules

Abstract

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