Gas-Phase Deposition of Gold Nanoclusters to Produce Heterogeneous Glycerol Oxidation Catalysts | Zendy

Rongsheng Cai | Zendy; Grazia Malta | Zendy; Sarah J. Haigh | Zendy; Graham J. Hutchings | Zendy; Simon J. Freakley | Zendy; Richard E. Palmer | Zendy

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Gas-Phase Deposition of Gold Nanoclusters to Produce Heterogeneous Glycerol Oxidation Catalysts

Author(s) -

Rongsheng Cai,

Grazia Malta,

Sarah J. Haigh,

Graham J. Hutchings,

Simon J. Freakley,

Richard E. Palmer

Publication year - 2020

Publication title -

acs applied nano materials

Language(s) - English

Resource type - Journals

SCImago Journal Rank - 1.227

H-Index - 29

ISSN - 2574-0970

DOI - 10.1021/acsanm.0c01140

Subject(s) - catalysis , nanoclusters , deposition (geology) , nanoparticle , chemical engineering , materials science , phase (matter) , colloidal gold , solvent , carbon fibers , cluster (spacecraft) , nanotechnology , inorganic chemistry , chemistry , organic chemistry , paleontology , sediment , engineering , biology , composite number , computer science , composite material , programming language

Gold nanoparticles prepared by colloidal methods are effective catalysts for selective glycerol oxidation under basic conditions. Large-scale synthesis of catalysts by wet chemical methods leads to large amounts of waste and can result in polymer or salt residues remaining on the catalyst. In contrast, gas-phase cluster deposition (cluster beam deposition) offers a solvent-free method to synthesize controlled nanoparticles/clusters. We show that the deposition of bare gas-phase gold clusters onto carbon powder leads to a catalyst comparable to that prepared by colloidal methods. This shows the feasibility of the synthesis method to produce oxidation catalysts with reduced waste.

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