X-Ray fluorescence analysis of Ge–As–Se glasses using X-Ray and electron-beam excitation

Bordovsky, G. A.; Марченко, А. В.; Серегин, П. П.; Бобохужаев, К. У.

doi:10.1134/s0020168515080063

Cited by 4 publications

(2 citation statements)

References 5 publications

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“…The standard method is a traditional XRD method when first the ratio of the line intensities of two atoms is calibrated for a known compound, and then these calibration ratios are used to determine the composition of the unknown alloy [12][13][14][15][16].…”

Section: Methodsmentioning

confidence: 99%

Application of the Method of X-Ray Fluorescence Analysis to Determine the Composition of Glassy and Crystalline Alloys of the Systems AsxS1-x and AsxSe1-x

Egorova

Lomakina

2020

KEM

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Section: Methodsmentioning

confidence: 99%

Application of the Method of X-Ray Fluorescence Analysis to Determine the Composition of Glassy and Crystalline Alloys of the Systems AsxS1-x and AsxSe1-x

Egorova

Lomakina

2020

KEM

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“…Высокоточный элементный анализ халькогенидных стекол обычно проводят методами рентгеновской спектроскопии (электронно-зондовый рентгеноспектральный микроанализ, рентгенофлуоресцентный анализ). Эти методы обеспечивают неопределенность результатов анализа на уровне 0.2-1 % мол., но требуют для этого идентичные исследуемым пробам образцы сравнения, изготовление которых представляет собой отдельную трудоемкую задачу [19][20][21]. Для анализа новых материалов такие образцы приходится изготавливать в лаборатории самостоятельно, что представляет собой многоэтапную и трудоемкую задачу, которая не всегда может быть выполнена с необходимой точностью.…”

Section: Introductionunclassified

Determination of matrix composition of Ge-Se-Te chalcogenide glasses using the ICP-AES method

Fadeeva¹,

Evdokimov²,

Пименов³

2020

АиК

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One of the most important stages of the high-purity chalcogenide glasses’ analytical control is the determination of matrix elements’ content with the uncertainty at the levels of 0.1–0.2 mol.%. The content of the macro-components may differ from the composition of the initial charge; therefore, an important task is the macro-composition determination of the final materials. This article describes the development of the technique for determining the matrix elements of high-purity Ge-Se-Te glasses in the range of germanium content from 10 to 35 mol. %, selenium and tellurium content from 20 to 50 mol. % with the expanded uncertainty within 0.01–0.2 mol. % (P = 0.95) using the inductively coupled plasma atomic emission spectrometry (ICP-AES). A simple technique for the preparation of primary calibration solutions from pure elementary Ge, Se and Te is proposed. The correctness of the analysis results is confirmed by comparing the calculated matrix composition of model glass samples, prepared by direct synthesis from high-purity simple substances in the sealed quartz glass ampoule, with the analysis results. The main advantage of the proposed analysis technique is the absence of the need for the reference samples identical to the analyzed material, which is especially important for determination of new materials’ matrix composition. The minimum sample mass for the determination of matrix elements is about 1 mg, which makes it possible to analyze not only bulk glass samples, but also fibers and expensive materials.

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Determination of the composition of chalcogenid glasses AS_xSE_1-x by the method of X-ray fluorescent analysis

Egorova

Lomakina

Popova

2019

J. Phys.: Conf. Ser.

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X-Ray fluorescence analysis of Ge–As–Se glasses using X-Ray and electron-beam excitation

Cited by 4 publications

References 5 publications

Application of the Method of X-Ray Fluorescence Analysis to Determine the Composition of Glassy and Crystalline Alloys of the Systems As<sub>x</sub>S<sub>1-x </sub>and As<sub>x</sub>Se<sub>1-x</sub>

Application of the Method of X-Ray Fluorescence Analysis to Determine the Composition of Glassy and Crystalline Alloys of the Systems As<sub>x</sub>S<sub>1-x </sub>and As<sub>x</sub>Se<sub>1-x</sub>

Determination of matrix composition of Ge-Se-Te chalcogenide glasses using the ICP-AES method

Determination of the composition of chalcogenid glasses AS_xSE_1-x by the method of X-ray fluorescent analysis

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X-Ray fluorescence analysis of Ge–As–Se glasses using X-Ray and electron-beam excitation

Cited by 4 publications

References 5 publications

Application of the Method of X-Ray Fluorescence Analysis to Determine the Composition of Glassy and Crystalline Alloys of the Systems As<sub>x</sub>S<sub>1-x </sub>and As<sub>x</sub>Se<sub>1-x</sub>

Application of the Method of X-Ray Fluorescence Analysis to Determine the Composition of Glassy and Crystalline Alloys of the Systems As<sub>x</sub>S<sub>1-x </sub>and As<sub>x</sub>Se<sub>1-x</sub>

Determination of matrix composition of Ge-Se-Te chalcogenide glasses using the ICP-AES method

Determination of the composition of chalcogenid glasses ASxSE1-x by the method of X-ray fluorescent analysis

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Determination of the composition of chalcogenid glasses AS_xSE_1-x by the method of X-ray fluorescent analysis