Anisotropic growth of Au-Ag heteronanostructures through plasmon-induced reduction

Hiroyasu Nishi; Yuan Zuo; Yoshinori Kuroiwa; Tetsu Tatsuma

doi:10.1063/5.0216586

Anisotropic growth of Au-Ag heteronanostructures through plasmon-induced reduction

Hiroyasu Nishi, Yuan Zuo, Yoshinori Kuroiwa, Tetsu Tatsuma^*

^*Corresponding author for this work

Program of Chemistry

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

1 Scopus citations

Abstract

Plasmonic heteronanostructures are promising building blocks for photofunctional materials and devices including photocatalysts, optical materials, and optoelectronic devices. In the present work, we fabricated Au-Ag bimetallic heteronanostructures based on site-selective and anisotropic Ag deposition and growth on Au nanocubes. Plasmonic Au nanocubes were adsorbed onto a glass plate, and the distal mode or proximal-distal mode of the nanocubes was selectively excited in the presence of Ag⁺ and citrate ions. Polycrystalline Ag was deposited around the top of the Au nanocubes by the distal mode excitation, and single crystalline Ag was grown laterally from the Au nanocubes by the proximal-distal mode excitation. The present method would be applied to the fabrication of various plasmonic nanostructures composed of two or more heterodomains.

Original language	English
Article number	041101
Journal	Journal of Chemical Physics
Volume	161
Issue number	4
DOIs	https://doi.org/10.1063/5.0216586
State	Published - 2024/07/28

ASJC Scopus subject areas

General Physics and Astronomy
Physical and Theoretical Chemistry

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title = "Anisotropic growth of Au-Ag heteronanostructures through plasmon-induced reduction",

abstract = "Plasmonic heteronanostructures are promising building blocks for photofunctional materials and devices including photocatalysts, optical materials, and optoelectronic devices. In the present work, we fabricated Au-Ag bimetallic heteronanostructures based on site-selective and anisotropic Ag deposition and growth on Au nanocubes. Plasmonic Au nanocubes were adsorbed onto a glass plate, and the distal mode or proximal-distal mode of the nanocubes was selectively excited in the presence of Ag+ and citrate ions. Polycrystalline Ag was deposited around the top of the Au nanocubes by the distal mode excitation, and single crystalline Ag was grown laterally from the Au nanocubes by the proximal-distal mode excitation. The present method would be applied to the fabrication of various plasmonic nanostructures composed of two or more heterodomains.",

author = "Hiroyasu Nishi and Yuan Zuo and Yoshinori Kuroiwa and Tetsu Tatsuma",

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T1 - Anisotropic growth of Au-Ag heteronanostructures through plasmon-induced reduction

AU - Nishi, Hiroyasu

AU - Zuo, Yuan

AU - Kuroiwa, Yoshinori

AU - Tatsuma, Tetsu

PY - 2024/7/28

Y1 - 2024/7/28

N2 - Plasmonic heteronanostructures are promising building blocks for photofunctional materials and devices including photocatalysts, optical materials, and optoelectronic devices. In the present work, we fabricated Au-Ag bimetallic heteronanostructures based on site-selective and anisotropic Ag deposition and growth on Au nanocubes. Plasmonic Au nanocubes were adsorbed onto a glass plate, and the distal mode or proximal-distal mode of the nanocubes was selectively excited in the presence of Ag+ and citrate ions. Polycrystalline Ag was deposited around the top of the Au nanocubes by the distal mode excitation, and single crystalline Ag was grown laterally from the Au nanocubes by the proximal-distal mode excitation. The present method would be applied to the fabrication of various plasmonic nanostructures composed of two or more heterodomains.

AB - Plasmonic heteronanostructures are promising building blocks for photofunctional materials and devices including photocatalysts, optical materials, and optoelectronic devices. In the present work, we fabricated Au-Ag bimetallic heteronanostructures based on site-selective and anisotropic Ag deposition and growth on Au nanocubes. Plasmonic Au nanocubes were adsorbed onto a glass plate, and the distal mode or proximal-distal mode of the nanocubes was selectively excited in the presence of Ag+ and citrate ions. Polycrystalline Ag was deposited around the top of the Au nanocubes by the distal mode excitation, and single crystalline Ag was grown laterally from the Au nanocubes by the proximal-distal mode excitation. The present method would be applied to the fabrication of various plasmonic nanostructures composed of two or more heterodomains.

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Anisotropic growth of Au-Ag heteronanostructures through plasmon-induced reduction

Abstract

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