Photothermal transformation of Au-Ag nanocages under pulsed laser irradiation

Zachary D. Hood, Kelsey P. Kubelick, Kyle D. Gilroy, Don Vanderlaan, Xuan Yang, Miaoxin Yang, Miaofang Chi, Stanislav Y. Emelianov, Younan Xia

Research output: Contribution to journalArticlepeer-review

32 Scopus citations

Abstract

Pulsed laser irradiation has emerged as an effective means to photothermally transform plasmonic nanostructures after their use in different biomedical applications. However, the ability to predict the products after photothermal transformation requires extensive ex situ studies. Here, we report a systematic study of the photothermal transformation of Au-Ag nanocages with a localized surface plasmon resonance at ca. 750 nm under pulsed laser irradiation at different fluences and a pulse duration of 5 ns. At biologically relevant laser energies, the pulsed laser transforms Au-Ag nanocages into pseudo-spherical, solid nanoparticles. The solid nanoparticles contained similar numbers of Au and Ag atoms to the parent Au-Ag nanocages. At increased laser fluences (>16 mJ cm -2 ) and number of pulses (>150), the average diameter of the resulting pseudo-spherical particles increased due to the involvement of Ostwald ripening and/or attachment-based growth. The changes in optical properties as a result of the transformation were validated using simulations based on the discrete dipole approximation method, where the spectral profiles and peak positions of the initial and final states matched well with the experimentally derived data. The results may have implications for the future use of Au-Ag nanocages in biomedicine, catalysis, and sensing.

Original languageEnglish
Pages (from-to)3013-3020
Number of pages8
JournalNanoscale
Volume11
Issue number6
DOIs
StatePublished - Feb 14 2019

Funding

A portion of this research was conducted at the Center for Nanophase Materials Sciences, which is a DOE Office of Science User Facility. ZDH gratefully acknowledges a Graduate Research Fellowship award from the National Science Foundation (DGE-1650044) and the Georgia Tech-ORNL Fellowship. A portion of the electron microscopy work was performed at the Georgia Tech’s Institute for Electronics and Nanotechnology, a member of the National Nanotechnology Coordinated Infrastructure, which is supported by the National Science Foundation (Grant ECCS-1542174). A portion of this research was conducted at the Center for Nanophase Materials Sciences, which is a DOE Office of Science User Facility. ZDH gratefully acknowledges a Graduate Research Fellowship award from the National Science Foundation (DGE-1650044) and the Georgia Tech-ORNL Fellowship. A portion of the electron microscopy work was performed at the Georgia Tech's Institute for Electronics and Nanotechnology, a member of the National Nanotechnology Coordinated Infrastructure, which is supported by the National Science Foundation (Grant ECCS-1542174).

FundersFunder number
Georgia Tech-ORNL
National Science FoundationDGE-1650044
National Science FoundationECCS-1542174

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