Macroscopic electrostatic effects in ATR-FTIR spectra of modern and archeological bones

Macroscopic electrostatic effects in ATR-FTIR spectra of modern and archeological bones

© 2018 Walter de Gruyter GmbH, Berlin/Boston 2018. Bones mostly consist of composite materials based on almost equivalent volume fractions of mineral (apatite) and organic (collagen) components. Accordingly, their infrared spectroscopic properties should reflect this composite nature. In this letter...

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Bibliographic Details
Main Authors: Aufort, Julie, Lebon, M., Gallet, X., Ségalen, L., Gervais, C., Brouder, C., Balan, E.
Format: Journal Article
Language:English
Published: MINERALOGICAL SOC AMER 2018
Subjects:
Science & Technology
Physical Sciences
Geochemistry & Geophysics
Mineralogy
ATR-FTIR spectroscopy
bone
fossilization
electrostatic properties
Biomaterials-Mineralogy Meets Medicine
INFRARED-SPECTROSCOPY
DIAGENESIS
BIOMINERALS
CRYSTALS
APATITE
ENAMEL
Online Access:http://hdl.handle.net/20.500.11937/76339
Description
Summary:© 2018 Walter de Gruyter GmbH, Berlin/Boston 2018. Bones mostly consist of composite materials based on almost equivalent volume fractions of mineral (apatite) and organic (collagen) components. Accordingly, their infrared spectroscopic properties should reflect this composite nature. In this letter, we show by theory and experiment that the variability of the strong phosphate bands in the ATR-FTIR spectra of a series of modern and archeological bone samples can be related to electrostatic interactions affecting apatite particles and depending on the bone collagen content. Key parameters controlling the shape of these bands are the mineral volume fraction and the dielectric constant of the embedding matrix. The magnitude of these effects is larger than the one related to microscopic changes of the apatite structure. Consequently, the interplay of microscopic and macroscopic parameters should be considered when using FTIR spectroscopy to monitor the preservation state of bioapatite during diagenetic and fossilization processes, especially during the degradation of the organic fraction of bone.

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