Universal One-Pot and Scalable Synthesis of SERS Encoded Nanoparticles

Encoded particles are one of the most powerful approaches for multiplex high-throughput screening. Surface-enhanced Raman scattering (SERS) based codification can, in principle, avoid many of the intrinsic limitations due to conventional alternatives, as it decreases the reading time and particle si...

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Veröffentlicht in:	Chemistry of materials 2015-02, Vol.27 (3), p.950-958
Hauptverfasser:	Mir-Simon, Bernat, Reche-Perez, Irene, Guerrini, Luca, Pazos-Perez, Nicolas, Alvarez-Puebla, Ramon A
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container_end_page	958
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container_title	Chemistry of materials
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creator	Mir-Simon, Bernat Reche-Perez, Irene Guerrini, Luca Pazos-Perez, Nicolas Alvarez-Puebla, Ramon A
description	Encoded particles are one of the most powerful approaches for multiplex high-throughput screening. Surface-enhanced Raman scattering (SERS) based codification can, in principle, avoid many of the intrinsic limitations due to conventional alternatives, as it decreases the reading time and particle size while allowing for almost unlimited codification. Unfortunately, methods for the synthetic preparation of these particles are tedious; often subjected to limited reproducibility (associated with large fluctuations in the size distributions of the polymers employed in the standard protocols); and to date, limited to a small amount of molecules. Herein, we report a universal, one-pot, inexpensive, and scalable synthetic protocol for the fabrication of SERS-encoded nanoparticles. This synthetic strategy is highly reproducible, independent of the chemical nature and size of the Raman code used (31 different codes were tested) and scalable in the liter range without affecting the final properties of the encoded structures. Furthermore, the SERS efficiency of the fabricated encoded nanoparticles is superior to that of the materials produced by conventional methods, while showing a remarkable reproducibility from batch to batch. This encoding strategy can easily be applied to nanoparticles of different materials and shapes.
doi_str_mv	10.1021/cm504251h
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title	Universal One-Pot and Scalable Synthesis of SERS Encoded Nanoparticles
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