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Controlling the Growth Locations of Ag Nanoparticles at Nanoscale by Shifting LSPR Hotspots.


ABSTRACT: Controlling chemical reactions by plasma is expected to be a new method for improving the structural properties of substrates. An Au nanojar array was prepared when Au was deposited onto a 2D polystyrene (PS) array. The site-selective chemical growth of Ag nanoparticle rings was realized around the Au nanojar necks by a local surface plasmon resonance (LSPR)-assisted chemical reaction. The catalytic hotspots in the nanostructure array could be controlled by both etching the nanojars and Au or TiO2 sputtering onto the nanojars, which were confirmed by the growth sites of the Ag nanoparticle in the LSPR-assisted chemical reaction. The structure of the nanojars and the electric field distributions of the growing nanoparticles were simulated and analyzed using Finite-Difference Time-Domain. FDTD simulations showed that the changes in the nanojar shape led to the changed hotspot distributions. At the same time, tracking the hotspot shifts in the process of structural change was also achieved by the observation of Ag growth. Nanoarray structure prepared by LSPR-assisted chemical reaction is one of the hot fields in current research and is also of great significance for the application of Surface-Enhanced Raman Scattering.

SUBMITTER: Zhu Q 

PROVIDER: S-EPMC6915484 | biostudies-literature | 2019 Oct

REPOSITORIES: biostudies-literature

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Controlling the Growth Locations of Ag Nanoparticles at Nanoscale by Shifting LSPR Hotspots.

Zhu Qi Q   Zhang Xiaolong X   Wang Yaxin Y   Zhu Aonan A   Gao Renxian R   Zhao Xiaoyu X   Zhang Yongjun Y   Chen Lei L  

Nanomaterials (Basel, Switzerland) 20191031 11


Controlling chemical reactions by plasma is expected to be a new method for improving the structural properties of substrates. An Au nanojar array was prepared when Au was deposited onto a 2D polystyrene (PS) array. The site-selective chemical growth of Ag nanoparticle rings was realized around the Au nanojar necks by a local surface plasmon resonance (LSPR)-assisted chemical reaction. The catalytic hotspots in the nanostructure array could be controlled by both etching the nanojars and Au or Ti  ...[more]

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