Chemical analysis by laser-based Raman spectroscopy

International Journal of Scholarly Research and Reviews Pub Date : 2023-04-30 DOI:10.56781/ijsrr.2023.2.2.0019

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Abstract

Raman was first discovered by C.V. Raman and K.F. Krishnan in 1928.It is a spectroscopic technique based on inelastic scattering of monochromatic light usually- from a laser in the visible or near infra-red part of electromagnetic spectrum. It probes vibrational, modes of the molecule and crystals of solid, liquid, and gaseous samples. t is commonly used in chemical analysis to provide a fingerprint by which molecules can be identified. At the time of its discovery from observing sunlight, obvious challenges were posed by the lack of a good Raman source, lack of a good detector, and by interference from fluorescence, which in some cases overwhelmed the Raman signal. The advent of laser made good for the deficiency of a good Raman source, multichannel detectors like Photodiode Arrays (PDA) or Charge - Coupled Devices (CCD) for a good detector and Fourier –transform for fluorescence. In addition, instruments such as notch filters, tunable filters, laser stop apertures, double and triple spectrometric systems are now used to reduce Rayleigh scattering and obtain high-quality Raman spectra. Thus, Raman has become the optimal technique for versatile, minimally invasive spectroscopy.

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基于激光拉曼光谱的化学分析

拉曼最早是由C.V.拉曼和K.F.克里希南在1928年发现的。它是一种基于单色光的非弹性散射的光谱技术，通常来自电磁波谱的可见或近红外部分的激光。它探测固体、液体和气体样品的分子和晶体的振动模式。T通常用于化学分析，提供分子识别的指纹。在通过观察太阳光发现它的时候，由于缺乏良好的拉曼光源，缺乏良好的探测器，以及荧光的干扰，在某些情况下，荧光掩盖了拉曼信号，这给它带来了明显的挑战。激光的出现弥补了良好的拉曼光源的不足，多通道探测器如光电二极管阵列(PDA)或电荷耦合器件(CCD)作为良好的探测器，傅里叶变换用于荧光。此外，诸如陷波滤波器、可调滤波器、激光止光口、双光谱和三重光谱系统等仪器现在被用于减少瑞利散射并获得高质量的拉曼光谱。因此，拉曼光谱已成为多功能、微创光谱学的最佳技术。

本文章由计算机程序翻译，如有差异，请以英文原文为准。

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International Journal of Scholarly Research and Reviews

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