Hiromu Takado scite author profile

This paper reports on monometallic Pt nanoparticle (Pt-NP) and bimetallic SnPt nanoparticle (SnPt-NP) catalysts with di erent Sn x Pt y alloy structures. The catalysts were fabricated using a polyalcohol reduction process, and the catalytic activity of each alloy phase for the hydrogenation of acetic acid to ethanol was investigated. High-resolution transmission electron microscopy (HR-TEM) results con rmed that SnPt-NP catalysts with di erent Sn/Pt atomic ratios can be successfully synthesized by controlling the Sn/Pt atomic ratios of each metal precursor (platinum(II) acetylacetonate and tin(II) acetate) in the starting mixture during a polyalcohol reduction process. Analyses by inductively coupled plasma spectroscopy and X-ray di raction (XRD) indicated the formation of uniform Sn 1 Pt 3 and Sn 1 Pt 1 alloy structures in the SnPt at Sn/Pt atomic ratios of 0.32 and 1.09, respectively. Compared with the monometallic Pt metal phase in the Pt-NP catalysts, the Sn 1 Pt 3 alloy phase markedly accelerated the hydrogenation of acetic acid. However, hydrogenation of acetic acid was not observed over the SnPt-NP catalysts at Sn/Pt 1.09, suggesting that the Sn 1 Pt 1 alloy phase is inactive for the hydrogenation of carboxylic acids to corresponding alcohols. Therefore, we conclude that the Sn 1 Pt 3 alloy phase is the most e ective bimetallic SnPt alloy phase for catalyzing the hydrogenation of carboxylic acids.

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Hiromu Takado

Synthesis of bimetallic SnPt-nanoparticle catalysts for chemoselective hydrogenation of crotonaldehyde: Relationship between Sn x Pt y alloy phase and catalytic performance

Effect of Sn<sub>x</sub>Pt<sub>y</sub> Alloy Structures in SnPt Bimetallic Nanoparticle Catalysts on Catalytic Activity for Hydrogenation of Acetic Acid

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