SIMULATION OF POWDER DIFFRACTION DIAGRAMS FROM DISORDERED AND IMPERFECT GRAPHITIC LAYERS

T LUNDSTROM; Yuri Georgievich Andreev

SIMULATION OF POWDER DIFFRACTION DIAGRAMS FROM DISORDERED AND IMPERFECT GRAPHITIC LAYERS

T LUNDSTROM, Yuri Georgievich Andreev

School of Chemistry

Research output: Contribution to journal › Article › peer-review

Abstract

Powder X-ray diffraction patterns from independent and piled honeycomb graphitic layers with finite lateral extent containing various types of distortions have been simulated through the use of the general equation of Debye. The list of the distortions included rotation of adjacent layers around the layer normal, displacement of atoms along the layer normal, in-plane strains and bowl-like bending of layers. Such an approach allows one to estimate the impact of both regular and random deteriorations of the graphite structure on the profile shape by taking into account the diffractional contribution from each pair of atoms comprising the structural unit under consideration.

Original language	English
Pages (from-to)	534-539
Number of pages	6
Journal	Journal of Applied Crystallography
Volume	28
Publication status	Published - 1 Oct 1995

Cite this

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title = "SIMULATION OF POWDER DIFFRACTION DIAGRAMS FROM DISORDERED AND IMPERFECT GRAPHITIC LAYERS",

abstract = "Powder X-ray diffraction patterns from independent and piled honeycomb graphitic layers with finite lateral extent containing various types of distortions have been simulated through the use of the general equation of Debye. The list of the distortions included rotation of adjacent layers around the layer normal, displacement of atoms along the layer normal, in-plane strains and bowl-like bending of layers. Such an approach allows one to estimate the impact of both regular and random deteriorations of the graphite structure on the profile shape by taking into account the diffractional contribution from each pair of atoms comprising the structural unit under consideration.",

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N2 - Powder X-ray diffraction patterns from independent and piled honeycomb graphitic layers with finite lateral extent containing various types of distortions have been simulated through the use of the general equation of Debye. The list of the distortions included rotation of adjacent layers around the layer normal, displacement of atoms along the layer normal, in-plane strains and bowl-like bending of layers. Such an approach allows one to estimate the impact of both regular and random deteriorations of the graphite structure on the profile shape by taking into account the diffractional contribution from each pair of atoms comprising the structural unit under consideration.

AB - Powder X-ray diffraction patterns from independent and piled honeycomb graphitic layers with finite lateral extent containing various types of distortions have been simulated through the use of the general equation of Debye. The list of the distortions included rotation of adjacent layers around the layer normal, displacement of atoms along the layer normal, in-plane strains and bowl-like bending of layers. Such an approach allows one to estimate the impact of both regular and random deteriorations of the graphite structure on the profile shape by taking into account the diffractional contribution from each pair of atoms comprising the structural unit under consideration.

M3 - Article

SN - 0021-8898

VL - 28

SP - 534

EP - 539

JO - Journal of Applied Crystallography

JF - Journal of Applied Crystallography

ER -

SIMULATION OF POWDER DIFFRACTION DIAGRAMS FROM DISORDERED AND IMPERFECT GRAPHITIC LAYERS

Abstract

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