Issue 43, 2023

Activated platinum in gallium-based room-temperature liquid metals for enhanced reduction reactions

Abstract

Room-temperature gallium-based liquid metals (LMs) have recently attracted significant attention worldwide for application in catalysis because of their unique combination of fluidic and catalytic properties. Platinum loading in LMs is expected to enhance the catalytic performance of various reaction systems. However, Pt-loaded methods for Ga-based LMs have not yet been sufficiently developed to improve the catalytic performance and Pt utilization efficiency. In this study, a novel method for the fabrication of Pt-incorporated LMs using Pt sputter deposition (Pt(dep)-LMs) was developed. The Pt(dep)-LMs contained well-dispersed Pt flakes with diameters of 0.89 ± 0.6 μm. The catalytic activity of the Pt(dep)-LM with a Pt loading of ∼0.7 wt% was investigated using model reactions such as methylene blue (MB) reduction and hydrogen production in an acidic aqueous solution. The Pt(dep)-LMs showed a higher MB reduction rate (three times) and hydrogen production (three times) than the LM loaded with conventional Pt black (∼0.7 wt%). In contrast to the Pt(dep)-LMs, solid-based Ga with a Pt loading of ∼0.7 wt% did not catalyze the reactions. These results demonstrate that Pt activation occurred in the Pt(dep)-LMs fabricated by Pt sputtering, and that the fluidic properties of the LMs enhanced the catalytic reduction reactions. Thus, these findings highlight the superior performance of the Pt deposition method and the advantages of using Pt-LM-based catalysts.

Graphical abstract: Activated platinum in gallium-based room-temperature liquid metals for enhanced reduction reactions

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Article information

Article type
Paper
Submitted
26 Sep 2023
Accepted
10 Oct 2023
First published
16 Oct 2023
This article is Open Access
Creative Commons BY license

RSC Adv., 2023,13, 30273-30280

Activated platinum in gallium-based room-temperature liquid metals for enhanced reduction reactions

N. Manyuan and H. Kawasaki, RSC Adv., 2023, 13, 30273 DOI: 10.1039/D3RA06571E

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