Structural evolution of Ag-Au nanoplates by pH controlled galvanic displacement

Kun Jae Lee; Young In Lee; Joun Lee; Nosang V. Myung; Yong Ho Choa

doi:10.1016/j.cap.2012.02.018

Structural evolution of Ag-Au nanoplates by pH controlled galvanic displacement

Kun Jae Lee, Young In Lee, Joun Lee, Nosang V. Myung, Yong Ho Choa

Dept. of Materials Science & Engineering

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

5 Scopus citations

Abstract

In this study, we performed a systematic study of the replacement reaction between silver nanoplates and an aqueous HAuCl ₄ solution. The aqueous HAuCl ₄ solution was adjusted to various pH values before the reaction. Under the different pH conditions, the hydrolyzed Au complexes existing in the solution have different concentrations. As a result, the total standard potential of the solution decreased with increasing pH. Thus, the pH was used to investigate the morphological, structural, compositional, and spectral changes of the reaction on the nanoscale. The alloy and dealloying processes were monitored and different structures were obtained. This work has enabled us to prepare metal nanostructures with controllable shapes at room temperature and their optical properties could be readily tuned by adjusting the pH.

Original language	English
Pages (from-to)	S53-S58
Journal	Current Applied Physics
Volume	12
Issue number	SUPPL. 2
DOIs	https://doi.org/10.1016/j.cap.2012.02.018
State	Published - Sep 2012

Keywords

Ag-Au alloy
Galvanic displacement
Nanoplate
pH control

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10.1016/j.cap.2012.02.018

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title = "Structural evolution of Ag-Au nanoplates by pH controlled galvanic displacement",

abstract = "In this study, we performed a systematic study of the replacement reaction between silver nanoplates and an aqueous HAuCl 4 solution. The aqueous HAuCl 4 solution was adjusted to various pH values before the reaction. Under the different pH conditions, the hydrolyzed Au complexes existing in the solution have different concentrations. As a result, the total standard potential of the solution decreased with increasing pH. Thus, the pH was used to investigate the morphological, structural, compositional, and spectral changes of the reaction on the nanoscale. The alloy and dealloying processes were monitored and different structures were obtained. This work has enabled us to prepare metal nanostructures with controllable shapes at room temperature and their optical properties could be readily tuned by adjusting the pH.",

keywords = "Ag-Au alloy, Galvanic displacement, Nanoplate, pH control",

author = "Lee, \{Kun Jae\} and Lee, \{Young In\} and Joun Lee and Myung, \{Nosang V.\} and Choa, \{Yong Ho\}",

year = "2012",

month = sep,

doi = "10.1016/j.cap.2012.02.018",

language = "English",

volume = "12",

pages = "S53--S58",

journal = "Current Applied Physics",

issn = "1567-1739",

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TY - JOUR

T1 - Structural evolution of Ag-Au nanoplates by pH controlled galvanic displacement

AU - Lee, Kun Jae

AU - Lee, Young In

AU - Lee, Joun

AU - Myung, Nosang V.

AU - Choa, Yong Ho

PY - 2012/9

Y1 - 2012/9

N2 - In this study, we performed a systematic study of the replacement reaction between silver nanoplates and an aqueous HAuCl 4 solution. The aqueous HAuCl 4 solution was adjusted to various pH values before the reaction. Under the different pH conditions, the hydrolyzed Au complexes existing in the solution have different concentrations. As a result, the total standard potential of the solution decreased with increasing pH. Thus, the pH was used to investigate the morphological, structural, compositional, and spectral changes of the reaction on the nanoscale. The alloy and dealloying processes were monitored and different structures were obtained. This work has enabled us to prepare metal nanostructures with controllable shapes at room temperature and their optical properties could be readily tuned by adjusting the pH.

AB - In this study, we performed a systematic study of the replacement reaction between silver nanoplates and an aqueous HAuCl 4 solution. The aqueous HAuCl 4 solution was adjusted to various pH values before the reaction. Under the different pH conditions, the hydrolyzed Au complexes existing in the solution have different concentrations. As a result, the total standard potential of the solution decreased with increasing pH. Thus, the pH was used to investigate the morphological, structural, compositional, and spectral changes of the reaction on the nanoscale. The alloy and dealloying processes were monitored and different structures were obtained. This work has enabled us to prepare metal nanostructures with controllable shapes at room temperature and their optical properties could be readily tuned by adjusting the pH.

KW - Ag-Au alloy

KW - Galvanic displacement

KW - Nanoplate

KW - pH control

UR - https://www.scopus.com/pages/publications/84867524534

U2 - 10.1016/j.cap.2012.02.018

DO - 10.1016/j.cap.2012.02.018

M3 - Article

AN - SCOPUS:84867524534

SN - 1567-1739

VL - 12

SP - S53-S58

JO - Current Applied Physics

JF - Current Applied Physics

IS - SUPPL. 2

ER -

Structural evolution of Ag-Au nanoplates by pH controlled galvanic displacement

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