Excitation polarization sensitivity of plasmon-mediated silver nanotriangle growth on a surface.

Aniruddha Paul Bart Kenens Johan Hofkens Hiroshi Uji-i

Langmuir

Department of Chemistry, Katholieke Universiteit Leuven, Celestijnenlaan 200F 3001 Heverlee, Belgium.

Published: June 2012

The study presents a simple method for growing triangular silver nanoparticles on solid substrates using wet photochemical synthesis.
The process involves anchoring smaller nanoparticles onto a substrate and then irradiating them with linearly polarized light in a silver seed solution, which directs their growth.
The findings highlight the influence of surface plasmon resonances on nanoparticle growth, paving the way for controlled synthesis that is crucial for plasmonic applications.

In this contribution, we report an effective and relatively simple route to grow triangular flat-top silver nanoparticles (NPs) directly on a solid substrate from smaller NPs through a wet photochemical synthesis. The method consists of fixing small, preformed nanotriangles (NTs) on a substrate and subsequently irradiating them with light in a silver seed solution. Furthermore, the use of linearly polarized light allows for exerting control on the growth direction of the silver nanotriangles on the substrate. Evidence for the role of surface plasmon resonances in governing the growth of the NTs is obtained by employing linear polarized light. Thus, this study demonstrates that light-induced, directional synthesis of nanoparticles on solid substrates is in reach, which is of utmost importance for plasmonic applications.

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http://dx.doi.org/10.1021/la300533h	DOI Listing

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