TY - JOUR

T1 - Infrared spectra of annite in the OH-stretching vibrational range

AU - Boukili, Boubker

AU - Holtz, François

AU - Robert, Jean Louis

AU - Joriou, Mohammed

AU - Bény, Jean Michel

AU - Naji, Mohamed

N1 - Copyright: Copyright 2008 Elsevier B.V., All rights reserved.

PY - 2003/11

Y1 - 2003/11

N2 - In the OH-stretching range, most of the micas studied exhibit partial dioctahedral character, which increases with increasing fO2. At both the Ni-NiO and wüstite-magnetite oxygen buffers, our spectra of annite indicate the presence of aluminum and Fe3+ in octahedral sites, which is required to articulate the octahedral layers. The decomposition of the infrared spectra allows one to redefine the assignment of annite absorption bands. Three V-bands of " dioctahedral-type" (in the range 3580-3520 cm-1) are characterized by the bulk number of charges of the two adjacent cations: two bands due to OH groups adjacent to an octahedral vacancy and bonded to Fe2+Al3+□ or Fe2+Fe 3+□ (range 3580-3540 cm-1); a band due to OH groups bonded to Fe3+Fe3+□ at 3530 cm -1. For Al-rich annite, the band assigned to OH-Fe 2+Fe3+□ is replaced by a band due to OH groups adjacent to Fe3+Al3+□. An 8-fold charged environment OH-Fe2+Al3+Al3+ does not seem likely in the micas studied. At higher wavenumbers, two I-bands of "trioctahedral-type" (OH-Fe2+Fe 2+Fe3+ and Fe2+Fe2+Al 3+) and one N-band corresponding to OH-Fe 2+Fe2+Fe2+ have been resolved. For all trioctahedral-type bands (I- and N-bands), a systematic shift is observed toward lower wavenumbers with increasing aluminum content of the mica. When compared to N- or I-bands, V-bands show an opposite behaviour.

AB - In the OH-stretching range, most of the micas studied exhibit partial dioctahedral character, which increases with increasing fO2. At both the Ni-NiO and wüstite-magnetite oxygen buffers, our spectra of annite indicate the presence of aluminum and Fe3+ in octahedral sites, which is required to articulate the octahedral layers. The decomposition of the infrared spectra allows one to redefine the assignment of annite absorption bands. Three V-bands of " dioctahedral-type" (in the range 3580-3520 cm-1) are characterized by the bulk number of charges of the two adjacent cations: two bands due to OH groups adjacent to an octahedral vacancy and bonded to Fe2+Al3+□ or Fe2+Fe 3+□ (range 3580-3540 cm-1); a band due to OH groups bonded to Fe3+Fe3+□ at 3530 cm -1. For Al-rich annite, the band assigned to OH-Fe 2+Fe3+□ is replaced by a band due to OH groups adjacent to Fe3+Al3+□. An 8-fold charged environment OH-Fe2+Al3+Al3+ does not seem likely in the micas studied. At higher wavenumbers, two I-bands of "trioctahedral-type" (OH-Fe2+Fe 2+Fe3+ and Fe2+Fe2+Al 3+) and one N-band corresponding to OH-Fe 2+Fe2+Fe2+ have been resolved. For all trioctahedral-type bands (I- and N-bands), a systematic shift is observed toward lower wavenumbers with increasing aluminum content of the mica. When compared to N- or I-bands, V-bands show an opposite behaviour.

KW - 8-fold charged

KW - Annite

KW - Ferrous aluminous biotites

KW - OH-groups

KW - OH-stretching vibrations

UR - http://www.scopus.com/inward/record.url?scp=16344368118&partnerID=8YFLogxK

M3 - Article

AN - SCOPUS:16344368118

VL - 83

SP - 331

EP - 340

JO - Schweizerische Mineralogische und Petrographische Mitteilungen

JF - Schweizerische Mineralogische und Petrographische Mitteilungen

SN - 0036-7699

IS - 3

ER -