从拉曼光谱实验室走向分析应用:实验室间研究综述

Q3 Physics and Astronomy
Elena-Andreea Rusu, Monica Baia
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引用次数: 0

摘要

拉曼光谱是否适用于分析?尽管拉曼光谱是一种常用的分析样品特性的技术,并且有许多优点,但它仍然有几个显著的局限性,阻碍了当前的趋势,无论地点、设备或操作人员如何,都无法产生相同的结果。克服这些缺点可能有助于进一步发展个性化医疗、诊断和治疗,制定工作方案,并在所有领域追求一致和可重复的表现。实验室间研究是目前最好的方法。在本研究中,我们回顾了拉曼光谱的实验室间研究,以强调在受控环境中进行定量分析的重要性。拉曼光谱具有分子特异性高、光谱采集时间短、组分鉴定能力强等优点,在所有实验中都得到了明确体现。拉曼光谱实验室正在研究如何准确预测相关浓度范围内的浓度,开发和验证该技术,并为这些研究生产同质样品,从而在分析应用方面迈出了一小步。
本文章由计算机程序翻译,如有差异,请以英文原文为准。
Moving from Raman Spectroscopy Lab towards Analytical Applications: A Review of Interlaboratory Studies
Is Raman spectroscopy applicable for analytical purposes? Although Raman spectroscopy is a commonly used technique for analyzing sample characteristics and has numerous benefits, it still has several significant limitations that hinder the current tendency to produce the same results regardless of location, equipment, or operator. Overcoming these drawbacks may help to further the development of personalized medicine, diagnosis and treatment, the development of work protocols, and the pursuit of consistent and repeatable performance across all fields. Interlaboratory studies are currently the best way to do this. In this study, we reviewed the interlaboratory studies on Raman spectroscopy conducted to highlight the importance of moving to quantitative analysis in controlled environments. The advantages of Raman spectroscopy, including its high molecular specificity, short spectrum acquisition time, and excellent component identification capabilities, were clearly stated in all experiments. The Raman spectroscopy lab is taking small steps toward analytical applications by figuring out how to accurately predict concentrations in the relevant range of concentrations, developing and verifying the technology, and producing homogenous samples for those investigations.
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来源期刊
Instruments
Instruments Physics and Astronomy-Instrumentation
CiteScore
2.60
自引率
0.00%
发文量
70
审稿时长
11 weeks
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