SE(R)RS devices fabricated by a laser electrodispersion method

Victor Sans; Andriy Moskalenko; Karen Wilson; Vladimir Kozhevin; Denis Yavsin; Igor Kuzmin; Sergey Gurevich; Alexei Lapkin

doi:10.1039/c1an15378a

SE(R)RS devices fabricated by a laser electrodispersion method

Victor Sans, Andriy Moskalenko, Karen Wilson, Vladimir Kozhevin, Denis Yavsin, Igor Kuzmin, Sergey Gurevich, Alexei Lapkin

Research output: Contribution to journal › Article › peer-review

Abstract

A novel laser electrodispersion (LE) technique was employed to deposit gold nanoparticles onto Si and SiO_x surfaces. The LE technique combines laser ablation with cascade fission of liquid metal micro-drops, which results in the formation of nanoparticles upon rapid cooling. The shape and the size distribution of the Au nanoparticles prepared by LE depend on the nature of the support. Gold nanoparticles were also deposited in the channels of microreactors fabricated by wet etching of Si and used as SE(R)RS sensors. The influence of the nanoparticle surface density as well as of the nature of the substrate on the Raman response was studied. At an appropriate surface density of the deposited nanoparticles a significant enhancement of Raman signal was observed showing the possibility to create efficient SERS substrates. Application of microfluidic devices in surface enhanced Raman spectroscopy (SERS) in continuous-flow mode with sensor regeneration is described.

Original language	English
Pages (from-to)	3295-3302
Number of pages	8
Journal	Analyst
Volume	136
Issue number	16
Early online date	11 Jul 2011
DOIs	https://doi.org/10.1039/c1an15378a
Publication status	Published - 21 Aug 2011

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title = "SE(R)RS devices fabricated by a laser electrodispersion method",

abstract = "A novel laser electrodispersion (LE) technique was employed to deposit gold nanoparticles onto Si and SiOx surfaces. The LE technique combines laser ablation with cascade fission of liquid metal micro-drops, which results in the formation of nanoparticles upon rapid cooling. The shape and the size distribution of the Au nanoparticles prepared by LE depend on the nature of the support. Gold nanoparticles were also deposited in the channels of microreactors fabricated by wet etching of Si and used as SE(R)RS sensors. The influence of the nanoparticle surface density as well as of the nature of the substrate on the Raman response was studied. At an appropriate surface density of the deposited nanoparticles a significant enhancement of Raman signal was observed showing the possibility to create efficient SERS substrates. Application of microfluidic devices in surface enhanced Raman spectroscopy (SERS) in continuous-flow mode with sensor regeneration is described.",

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T1 - SE(R)RS devices fabricated by a laser electrodispersion method

AU - Sans, Victor

AU - Moskalenko, Andriy

AU - Wilson, Karen

AU - Kozhevin, Vladimir

AU - Yavsin, Denis

AU - Kuzmin, Igor

AU - Gurevich, Sergey

AU - Lapkin, Alexei

PY - 2011/8/21

Y1 - 2011/8/21

N2 - A novel laser electrodispersion (LE) technique was employed to deposit gold nanoparticles onto Si and SiOx surfaces. The LE technique combines laser ablation with cascade fission of liquid metal micro-drops, which results in the formation of nanoparticles upon rapid cooling. The shape and the size distribution of the Au nanoparticles prepared by LE depend on the nature of the support. Gold nanoparticles were also deposited in the channels of microreactors fabricated by wet etching of Si and used as SE(R)RS sensors. The influence of the nanoparticle surface density as well as of the nature of the substrate on the Raman response was studied. At an appropriate surface density of the deposited nanoparticles a significant enhancement of Raman signal was observed showing the possibility to create efficient SERS substrates. Application of microfluidic devices in surface enhanced Raman spectroscopy (SERS) in continuous-flow mode with sensor regeneration is described.

AB - A novel laser electrodispersion (LE) technique was employed to deposit gold nanoparticles onto Si and SiOx surfaces. The LE technique combines laser ablation with cascade fission of liquid metal micro-drops, which results in the formation of nanoparticles upon rapid cooling. The shape and the size distribution of the Au nanoparticles prepared by LE depend on the nature of the support. Gold nanoparticles were also deposited in the channels of microreactors fabricated by wet etching of Si and used as SE(R)RS sensors. The influence of the nanoparticle surface density as well as of the nature of the substrate on the Raman response was studied. At an appropriate surface density of the deposited nanoparticles a significant enhancement of Raman signal was observed showing the possibility to create efficient SERS substrates. Application of microfluidic devices in surface enhanced Raman spectroscopy (SERS) in continuous-flow mode with sensor regeneration is described.

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SE(R)RS devices fabricated by a laser electrodispersion method

Abstract

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