Laser Raman spectroscopy with different excitation sources and extension to surface enhanced raman spectroscopy

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2015

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© 2015 Hindawi Publishing Corporation

Abstract

A dispersive Raman spectrometer was used with three different excitation sources (Argon-ion, He-Ne, and Diode lasers operating at 514.5 nm, 633 nm, and 782 nm, resp.). The system was employed to a variety of Raman active compounds. Many of the compounds exhibit very strong fluorescence while being excited with a laser emitting at UV-VIS region, hereby imposing severe limitation to the detection efficiency of the particular Raman system. The Raman system with variable excitation laser sources provided us with a desired flexibility toward the suppression of unwanted fluorescence signal. With this Raman system, we could detect and specify the different vibrational modes of various hazardous organic compounds and some typical dyes (both fluorescent and nonfluorescent). We then compared those results with the ones reported in literature and found the deviation within the range of ±2 cm-1, which indicates reasonable accuracy and usability of the Raman system. Then, the surface enhancement technique of Raman spectrum was employed to the present system. To this end, we used chemically prepared colloidal suspension of silver nanoparticles as substrate and Rhodamine 6G as probe. We could observe significant enhancement of Raman signal from Rhodamine 6G using the colloidal solution of silver nanoparticles the average magnitude of which is estimated to be 103.

Description

This article was published in the Journal of Spectroscopy [© 2015 Hindawi Publishing Corporation] and the definite version is available at : 10.1155/2015/895317

Keywords

Argon lasers, Fluorescence, Metal nanoparticles, Nanoparticles, Raman spectroscopy, Signal detection, Silver, Spectrometers

Citation

Wahadoszamen, M., Rahaman, A., Hoque, N. M. R., I Talukder, A., Abedin, K. M., & Haider, A. F. M. Y. (2015). Laser raman spectroscopy with different excitation sources and extension to surface enhanced raman spectroscopy. Journal of Spectroscopy, 2015 doi:10.1155/2015/895317

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