优化激光诱导击穿光谱原始信号的方法

IF 3.2 2区 化学 Q1 SPECTROSCOPY
Shangyong Zhao , Yuchen Zhao , Yujia Dai , Ziyuan Liu , Xun Gao
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引用次数: 0

摘要

信号不确定性的存在仍然是激光诱导击穿光谱(LIBS)化学定量分析的最大障碍,其中原始信号优化是过去、现在和未来长期以来需要攻克的关键和难点问题。在这篇综述中,我们研究了现有的原始信号优化方法,并简要介绍了激光产生等离子体的过程、光谱不确定性的来源以及评估参数。此外,我们还总结并提出了四种优化方案,包括能量注入、空间约束、实验环境和技术融合,旨在提高 LIBS 在定量分析物质化学元素组成方面的准确性和可靠性。最后,我们对当前 LIBS 信号优化方案存在的问题进行了深入讨论,并对其进一步发展进行了思考。这项工作不仅为研究人员使用 LIBS 技术提供了理论指导和实践建议,而且对促进信号优化的实际应用具有重要意义。
本文章由计算机程序翻译,如有差异,请以英文原文为准。

Methods for optimization of the original signal in laser induced breakdown spectroscopy

Methods for optimization of the original signal in laser induced breakdown spectroscopy

The existence of signal uncertainty remains the biggest obstacle in quantitative chemical analysis of laser-induced breakdown spectroscopy (LIBS), in which the original signal optimization is a key and difficult problem to overcome for a long time in the past, present, and future. In this review, we investigated the existing methods for optimizing original signals and briefly introduced the process of laser-produced plasma, sources of spectral uncertainty, and evaluation parameters. In addition, we summarized and proposed four optimization scenarios, including energy injection, spatial confinement, experimental environment, and technology fusion, aiming to improve the accuracy and reliability of LIBS in quantitative analysis of the chemical element composition of substances. Finally, we conducted an in-depth discussion on the existing problems of the current LIBS signal optimization scenarios and reflected on its further development. This work not only provides theoretical guidelines and practical suggestions for researchers to use LIBS technology, but also has great significance for promoting the practical application of signal optimization.

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来源期刊
CiteScore
6.10
自引率
12.10%
发文量
173
审稿时长
81 days
期刊介绍: Spectrochimica Acta Part B: Atomic Spectroscopy, is intended for the rapid publication of both original work and reviews in the following fields: Atomic Emission (AES), Atomic Absorption (AAS) and Atomic Fluorescence (AFS) spectroscopy; Mass Spectrometry (MS) for inorganic analysis covering Spark Source (SS-MS), Inductively Coupled Plasma (ICP-MS), Glow Discharge (GD-MS), and Secondary Ion Mass Spectrometry (SIMS). Laser induced atomic spectroscopy for inorganic analysis, including non-linear optical laser spectroscopy, covering Laser Enhanced Ionization (LEI), Laser Induced Fluorescence (LIF), Resonance Ionization Spectroscopy (RIS) and Resonance Ionization Mass Spectrometry (RIMS); Laser Induced Breakdown Spectroscopy (LIBS); Cavity Ringdown Spectroscopy (CRDS), Laser Ablation Inductively Coupled Plasma Atomic Emission Spectroscopy (LA-ICP-AES) and Laser Ablation Inductively Coupled Plasma Mass Spectrometry (LA-ICP-MS). X-ray spectrometry, X-ray Optics and Microanalysis, including X-ray fluorescence spectrometry (XRF) and related techniques, in particular Total-reflection X-ray Fluorescence Spectrometry (TXRF), and Synchrotron Radiation-excited Total reflection XRF (SR-TXRF). Manuscripts dealing with (i) fundamentals, (ii) methodology development, (iii)instrumentation, and (iv) applications, can be submitted for publication.
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