Continuous flow synthesis and simulation-supported investigation of tunable plasmonic gold patchy nanoparticles

Plasmonic nanoparticles have intriguing optical properties which make them suitable candidates for sensing or theranostic applications. Anisotropic patchy particles, where metal is locally deposited on the surface of a core particle, exhibit plasmon resonances that can be specifically adjusted for t...

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Bibliographic Details
Published in:Nanoscale 2024-10, Vol.16 (41), p.19284-19297
Main Authors: Seifert, Julia S, Nees, Nico, Khan, Hamzah, Traoré, Nabi E, Drobek, Dominik, Peukert, Wolfgang, Apeleo Zubiri, Benjamin, Spiecker, Erdmann, Stingl, Michael, Pflug, Lukas, Klupp Taylor, Robin N
Format: Article
Language:English
Subjects:
Continuous flow
Electroless deposition
Electroless plating
Finite element method
Gold
Mixers
Nanoparticles
Nucleation
Optical properties
Parameter identification
Plasmonics
Plasmons
Polystyrene resins
Synthesis
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Summary:Plasmonic nanoparticles have intriguing optical properties which make them suitable candidates for sensing or theranostic applications. Anisotropic patchy particles, where metal is locally deposited on the surface of a core particle, exhibit plasmon resonances that can be specifically adjusted for these applications. However, many existing synthesis routes are complex, yield too little material, or provide particles with limited optical tunability. In this work, we present a simple and scalable continuous flow synthesis of gold-on-polystyrene patchy particles with widely adjustable optical properties. By increasing the chloride concentration in the electroless deposition of gold, we slow down the redox reduction kinetics and obtain a dense patch morphology as well as a reduced nucleation rate. The latter is counteracted by introducing a low-level seeding approach where a small number of gold nanocrystals heterocoagulate with the core particles prior to patch growth. Seeding and patch growth are performed in a continuous flow set-up with two T-shaped milli-mixers. The resulting patchy particle samples exhibit a tunable dipolar plasmon peak between 600 nm and 1100 nm. We also investigate the structure-property relationship for our gold patchy particles using finite element method simulations. After identifying a suitable patch shape model, we elucidate the influence of individual geometric parameters on the optical properties and show that the relationship holds true for a large range of patch coverages. Finally, we apply the relationship to explain the time-dependent change in the optical properties of as-synthesized patches by correlating it with the patch shape transformation revealed by electron microscopy. The scalable and tunable synthesis of anisotropic plasmonic nanoparticles based on dense gold patches grown on polystyrene nanospheres is achieved through a double T-mixer continuous flow technique and supported by FEM simulations.
ISSN:2040-3364
2040-3372
2040-3372
DOI:10.1039/d4nr02516d