Characterization of the chemical shift and asymmetry indices of praseodium, neodymium, samarium, gadolinium, and terbium compounds by wavelength dispersive X-ray fluorescence (WDXRF)

IF 1.3 4区 工程技术 Q4 CHEMISTRY, ANALYTICAL Instrumentation Science & Technology Pub Date : 2022-08-27 DOI:10.1080/10739149.2022.2115511
S. Durdağı, F. Güzel
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引用次数: 1

Abstract

Abstract Emitted X-ray energies, line shapes, fluorescence yields, absorption probabilities and absorption edges of the elements are X-ray fundamental parameters that are of practical significance because they facilitate compositional analysis of complex materials. They are also a potent test of atomic theory. The chemical effects may cause changes in the energy of the X-ray lines and line shapes, such as the full width at half maximum and asymmetry index values depending on the chemical state of the substance. Although these effects vary for each element, the causes of these differences have been investigated. In this study, changes in chemical action values of lanthanide group compounds were investigated using a single crystal wavelength dispersive X-ray spectrometer equipped with a rhodium anode X-ray tube. The Ll and Lη X-ray emission lines are characterized by fitting of the Lorentz function. The chemical shift was investigated according to the chemical bond type, molecular structure, and oxidation number.
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用波长色散X射线荧光(WDXRF)表征镨、钕、钐、钆和铽化合物的化学位移和不对称指数
发射的x射线能量、线形、荧光产额、吸收概率和元素的吸收边缘是x射线的基本参数,对复杂材料的成分分析具有重要的实际意义。它们也是对原子理论的有力检验。化学效应可能导致x射线线的能量和线形的变化,如半最大值时的全宽度和不对称指数值,这取决于物质的化学状态。尽管每种元素的影响各不相同,但人们已经研究了造成这些差异的原因。本研究采用单晶波长色散x射线光谱仪,配以铑阳极x射线管,研究了镧系化合物化学作用值的变化。用洛伦兹函数拟合来表征l和Lη x射线发射谱线。根据化学键类型、分子结构和氧化数考察了其化学位移。
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来源期刊
Instrumentation Science & Technology
Instrumentation Science & Technology 工程技术-分析化学
CiteScore
3.50
自引率
0.00%
发文量
45
审稿时长
>12 weeks
期刊介绍: Instrumentation Science & Technology is an internationally acclaimed forum for fast publication of critical, peer reviewed manuscripts dealing with innovative instrument design and applications in chemistry, physics biotechnology and environmental science. Particular attention is given to state-of-the-art developments and their rapid communication to the scientific community. Emphasis is on modern instrumental concepts, though not exclusively, including detectors, sensors, data acquisition and processing, instrument control, chromatography, electrochemistry, spectroscopy of all types, electrophoresis, radiometry, relaxation methods, thermal analysis, physical property measurements, surface physics, membrane technology, microcomputer design, chip-based processes, and more. Readership includes everyone who uses instrumental techniques to conduct their research and development. They are chemists (organic, inorganic, physical, analytical, nuclear, quality control) biochemists, biotechnologists, engineers, and physicists in all of the instrumental disciplines mentioned above, in both the laboratory and chemical production environments. The journal is an important resource of instrument design and applications data.
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