x射线荧光化学成像的过去、现在和未来

H. Carvalho
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引用次数: 0

摘要

元素化学图像揭示了元素在样品中的分布情况。虽然对于均质溶液来说,这听起来可能毫无用处,但对于理解非均质系统的性质至关重要,例如岩石1、谷物颗粒2或油漆3。在这种情况下,揭示样本部分的化学成分可能会揭示矿物质、营养素或有毒元素的分布。所有测量元素空间分布的策略都需要一个探针和一个检测系统,探针的大小将决定图像的横向分辨率。有些技术是破坏性的,而另一些则保存标本;后一个特征对于稀有和质量有限的样品或在体内分析的情况下具有特别重要的意义。激光烧蚀与质谱法或光学发射光谱法、激光诱导分解光谱法和微探针X射线荧光光谱法是化学成像中最常见的实验室技术。
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Past, Present, and Future of X-ray Fluorescence Chemical Imaging
Elemental chemical images reveal how the elements are distributed in a sample. While it may sound useless for a homogeneous solution, it is crucial for understanding properties of heterogeneous systems, such as a rock1, a cereal grain2, or a painting3. In such cases, revealing the chemical composition of parts of the sample might reveal the distribution of minerals, nutrients, or toxic elements. All strategies for measuring the spatial distribution of elements require a probe, whose size will define the lateral resolution of the image, and a detection system. Some techniques are destructive while others preserve the specimen; this latter feature is of special importance for rare and mass-limited samples or in the case of in vivo analysis. Laser ablation coupled to mass spectrometry or optical emission spectrometry, laser induced break down spectrometry, and microprobe X-ray fluorescence spectrometry are some of the most common laboratory techniques employed in chemical imaging.
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来源期刊
CiteScore
1.60
自引率
14.30%
发文量
46
期刊介绍: BrJAC is dedicated to the diffusion of significant and original knowledge in all branches of Analytical Chemistry, and is addressed to professionals involved in science, technology and innovation projects at universities, research centers and in industry.
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