Theoretical infrared absorption coefficient of OH groups in minerals

Etienne Balan; Keith Refson; Marc Blanchard; Simon Delattre; Michele Lazzeri; Jannick Ingrin; Francesco Mauri; Kate Wright; Bjoern Winkler

doi:10.2138/am.2008.2889

Theoretical infrared absorption coefficient of OH groups in minerals

Etienne Balan, Keith Refson, Marc Blanchard, Simon Delattre, Michele Lazzeri, Jannick Ingrin, Francesco Mauri, Kate Wright, Bjoern Winkler

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60 Scopus citations

Abstract

The integrated molar absorption coefficient of isolated and localized OH groups in selected minerals is theoretically investigated within the density functional theory framework. The overall decrease in absorption coefficient of stretching modes observed with increasing frequency is consistent with the experimental observations. It is related to a decrease in the magnitude of the hydrogen Born effective charge tensor projected along the OH bond as a function of increasing H-bonding. The scatter of theoretical data shows that the use of a general calibration of infrared absorbances in minerals cannot lead to accurate water contents. In contrast, the combination of theoretical modeling and experimental measurements should improve the determination of the hydrogen distribution among structurally distinct OH defects in nominally anhydrous minerals.

Original language	English (US)
Pages (from-to)	950-953
Number of pages	4
Journal	American Mineralogist
Volume	93
Issue number	5-6
DOIs	https://doi.org/10.2138/am.2008.2889
State	Published - 2008

All Science Journal Classification (ASJC) codes

Geophysics
Geochemistry and Petrology

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10.2138/am.2008.2889

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AU - Balan, Etienne

AU - Refson, Keith

AU - Blanchard, Marc

AU - Delattre, Simon

AU - Lazzeri, Michele

AU - Ingrin, Jannick

AU - Mauri, Francesco

AU - Wright, Kate

AU - Winkler, Bjoern

PY - 2008

Y1 - 2008

N2 - The integrated molar absorption coefficient of isolated and localized OH groups in selected minerals is theoretically investigated within the density functional theory framework. The overall decrease in absorption coefficient of stretching modes observed with increasing frequency is consistent with the experimental observations. It is related to a decrease in the magnitude of the hydrogen Born effective charge tensor projected along the OH bond as a function of increasing H-bonding. The scatter of theoretical data shows that the use of a general calibration of infrared absorbances in minerals cannot lead to accurate water contents. In contrast, the combination of theoretical modeling and experimental measurements should improve the determination of the hydrogen distribution among structurally distinct OH defects in nominally anhydrous minerals.

AB - The integrated molar absorption coefficient of isolated and localized OH groups in selected minerals is theoretically investigated within the density functional theory framework. The overall decrease in absorption coefficient of stretching modes observed with increasing frequency is consistent with the experimental observations. It is related to a decrease in the magnitude of the hydrogen Born effective charge tensor projected along the OH bond as a function of increasing H-bonding. The scatter of theoretical data shows that the use of a general calibration of infrared absorbances in minerals cannot lead to accurate water contents. In contrast, the combination of theoretical modeling and experimental measurements should improve the determination of the hydrogen distribution among structurally distinct OH defects in nominally anhydrous minerals.

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Theoretical infrared absorption coefficient of OH groups in minerals

Abstract

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