Rapid synthesis of single-atom Pt co-catalyst under containerless acoustic levitation state

Lin Lei; Xinyue Hu; Chi Zhang; Jiarui Quan; Weijia Wang; Na Yan; Huiqing Fan

doi:10.1063/5.0282548

Rapid synthesis of single-atom Pt co-catalyst under containerless acoustic levitation state

Lin Lei
, Xinyue Hu
, Chi Zhang
, Jiarui Quan
, Weijia Wang
, Na Yan
, Huiqing Fan

Northwestern Polytechnical University Xian

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

6 Scopus citations

Abstract

An acoustic levitation method is employed to assist single-atom platinum dispersion on graphitic carbon nitride (g-C₃N₄). It simulates a space containerless environment through the nonlinear effect of high-intensity acoustic waves. We evaluate the hydrogen production performance of the prepared samples under visible light. The Pt co-catalysts prepared under acoustic levitation state exist as both single atoms and nanoparticles, with overall performance outperforming those composed entirely of nanoparticles. This physically assisted acoustic levitation method can be applied to the preparation of other types of single atoms to enable more catalytic-related research. Moreover, it can promote the development of more interdisciplinary fields in physical chemistry. Our work provides an interesting and facile approach for the rapid synthesis of single-atom noble metal co-catalysts.

Original language	English
Article number	113901
Journal	Applied Physics Letters
Volume	127
Issue number	11
DOIs	https://doi.org/10.1063/5.0282548
State	Published - 15 Sep 2025

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title = "Rapid synthesis of single-atom Pt co-catalyst under containerless acoustic levitation state",

abstract = "An acoustic levitation method is employed to assist single-atom platinum dispersion on graphitic carbon nitride (g-C3N4). It simulates a space containerless environment through the nonlinear effect of high-intensity acoustic waves. We evaluate the hydrogen production performance of the prepared samples under visible light. The Pt co-catalysts prepared under acoustic levitation state exist as both single atoms and nanoparticles, with overall performance outperforming those composed entirely of nanoparticles. This physically assisted acoustic levitation method can be applied to the preparation of other types of single atoms to enable more catalytic-related research. Moreover, it can promote the development of more interdisciplinary fields in physical chemistry. Our work provides an interesting and facile approach for the rapid synthesis of single-atom noble metal co-catalysts.",

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T1 - Rapid synthesis of single-atom Pt co-catalyst under containerless acoustic levitation state

AU - Lei, Lin

AU - Hu, Xinyue

AU - Zhang, Chi

AU - Quan, Jiarui

AU - Wang, Weijia

AU - Yan, Na

AU - Fan, Huiqing

PY - 2025/9/15

Y1 - 2025/9/15

N2 - An acoustic levitation method is employed to assist single-atom platinum dispersion on graphitic carbon nitride (g-C3N4). It simulates a space containerless environment through the nonlinear effect of high-intensity acoustic waves. We evaluate the hydrogen production performance of the prepared samples under visible light. The Pt co-catalysts prepared under acoustic levitation state exist as both single atoms and nanoparticles, with overall performance outperforming those composed entirely of nanoparticles. This physically assisted acoustic levitation method can be applied to the preparation of other types of single atoms to enable more catalytic-related research. Moreover, it can promote the development of more interdisciplinary fields in physical chemistry. Our work provides an interesting and facile approach for the rapid synthesis of single-atom noble metal co-catalysts.

AB - An acoustic levitation method is employed to assist single-atom platinum dispersion on graphitic carbon nitride (g-C3N4). It simulates a space containerless environment through the nonlinear effect of high-intensity acoustic waves. We evaluate the hydrogen production performance of the prepared samples under visible light. The Pt co-catalysts prepared under acoustic levitation state exist as both single atoms and nanoparticles, with overall performance outperforming those composed entirely of nanoparticles. This physically assisted acoustic levitation method can be applied to the preparation of other types of single atoms to enable more catalytic-related research. Moreover, it can promote the development of more interdisciplinary fields in physical chemistry. Our work provides an interesting and facile approach for the rapid synthesis of single-atom noble metal co-catalysts.

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U2 - 10.1063/5.0282548

DO - 10.1063/5.0282548

M3 - 文章

AN - SCOPUS:105015848035

SN - 0003-6951

VL - 127

JO - Applied Physics Letters

JF - Applied Physics Letters

IS - 11

M1 - 113901

ER -

Rapid synthesis of single-atom Pt co-catalyst under containerless acoustic levitation state

Abstract

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