Computational investigation of hydrogen-induced phonon changes in carbon fiber

[Display omitted] Optical vibrational spectroscopy has shown promise as a noninvasive means of monitoring the mechanical properties of carbon fiber (CF), which is increasingly used for industrial and consumer purposes. However, interpretation of optical vibrational spectra for solid materials is inf...

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Published inComputational materials science Vol. 216; no. C; p. 111884
Main Authors Isbill, Sara B., Brubaker, Zach E., Shields, Ashley E., Niedziela, J.L.
Format Journal Article
LanguageEnglish
Published Netherlands Elsevier B.V 05.01.2023
Elsevier
Subjects
Carbon fiber
Defects
Density functional theory
Simulated inelastic neutron scattering spectroscopy
Density functional theory
Simulated inelastic neutron scattering spectroscopy
Carbon fiber
Defects
Online AccessGet full text
ISSN0927-0256
1879-0801
DOI10.1016/j.commatsci.2022.111884

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Abstract [Display omitted] Optical vibrational spectroscopy has shown promise as a noninvasive means of monitoring the mechanical properties of carbon fiber (CF), which is increasingly used for industrial and consumer purposes. However, interpretation of optical vibrational spectra for solid materials is inferential, particularly when defects are present. Because inelastic neutron scattering (INS) spectroscopy is not subject to selection rules, the full vibrational spectra can be measured. And, identifying correlations between INS features and tensile properties can assist in the interpretation of spectra from more commonly used optical vibrational spectroscopic techniques, such as Raman and infrared (IR) spectroscopy. Recent INS experiments on high-performance commercial carbon fibers showed features near 900 and 1100 cm−1 in addition to a broad feature near 3000 cm−1 that increased in intensity with decreasing tensile strength. These features were assigned to hydrogen defects. In the present work, we use density functional theory to simulate the INS spectra of several hydrogen defect geometries in graphite as a model for carbon fiber structure units, confirming the experimental assignment of these peaks to hydrogen modes and providing insights into the structure and lattice dynamics of the defects.
AbstractList [Display omitted] Optical vibrational spectroscopy has shown promise as a noninvasive means of monitoring the mechanical properties of carbon fiber (CF), which is increasingly used for industrial and consumer purposes. However, interpretation of optical vibrational spectra for solid materials is inferential, particularly when defects are present. Because inelastic neutron scattering (INS) spectroscopy is not subject to selection rules, the full vibrational spectra can be measured. And, identifying correlations between INS features and tensile properties can assist in the interpretation of spectra from more commonly used optical vibrational spectroscopic techniques, such as Raman and infrared (IR) spectroscopy. Recent INS experiments on high-performance commercial carbon fibers showed features near 900 and 1100 cm−1 in addition to a broad feature near 3000 cm−1 that increased in intensity with decreasing tensile strength. These features were assigned to hydrogen defects. In the present work, we use density functional theory to simulate the INS spectra of several hydrogen defect geometries in graphite as a model for carbon fiber structure units, confirming the experimental assignment of these peaks to hydrogen modes and providing insights into the structure and lattice dynamics of the defects.
ArticleNumber 111884
Author Brubaker, Zach E.
Niedziela, J.L.
Isbill, Sara B.
Shields, Ashley E.
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Keywords Density functional theory
Simulated inelastic neutron scattering spectroscopy
Carbon fiber
Defects
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Snippet [Display omitted] Optical vibrational spectroscopy has shown promise as a noninvasive means of monitoring the mechanical properties of carbon fiber (CF), which...
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SubjectTerms Carbon fiber
Defects
Density functional theory
Simulated inelastic neutron scattering spectroscopy
Title Computational investigation of hydrogen-induced phonon changes in carbon fiber
URI https://dx.doi.org/10.1016/j.commatsci.2022.111884
https://www.osti.gov/biblio/1897306
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