Issue 1, 2019
From the journal:

Nanoscale Advances

Modular assembly of plasmonic core–satellite structures as highly brilliant SERS-encoded nanoparticles

Nicolas Pazos-Perez, ORCID logo *a   Jamie M. Fitzgerald, ORCID logo b   Vincenzo Giannini,bc   Luca Guerrinia  and  Ramon A. Alvarez-Puebla ORCID logo *ad  

* Corresponding authors

a Departamento de Quimica Fisica e Inorganica, EMaS, Universitat Rovira i Virgili, Carrer de Marcel·lí Domingo s/n, 43007 Tarragona, Spain
E-mail: nicolas.pazos@urv.cat, ramon.alvarez@urv.cat

b Department of Physics Condensed Matter Theory, Imperial College London, England, UK

c Instituto de Estructura de la Materia (IEM-CSIC), Consejo Superior de Investigaciones Cientificas, Serrano 121, 28006 Madrid, Spain

d ICREA, Passeig Lluís Companys 23, 08010 Barcelona, Spain

Abstract

Herein, we present a fabrication approach that produces homogeneous core–satellite SERS encoded particles with minimal interparticle gaps (<2–3 nm) and maximum particle loading, while positioning the encoding agents at the gaps. Integration of plasmonic building blocks of different sizes, shapes, compositions, surface chemistries or encoding agents is achieved in a modular fashion with minimal modification of the general synthetic protocol. These materials present an outstanding optical performance with homogeneous enhancement factors over 4 orders of magnitude as compared with classical SERS encoded particles, which allows their use as single particle labels.

Graphical abstract: Modular assembly of plasmonic core–satellite structures as highly brilliant SERS-encoded nanoparticles

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Article information

DOI
https://doi.org/10.1039/C8NA00257F
Article type
Paper
Submitted
29 Sep 2018
Accepted
27 Oct 2018
First published
29 Oct 2018
This article is Open Access
Creative Commons BY-NC license

Nanoscale Adv., 2019,1, 122-131

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Modular assembly of plasmonic core–satellite structures as highly brilliant SERS-encoded nanoparticles

N. Pazos-Perez, J. M. Fitzgerald, V. Giannini, L. Guerrini and R. A. Alvarez-Puebla, Nanoscale Adv., 2019, 1, 122 DOI: 10.1039/C8NA00257F

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