H in Tourmaline
Updated 16 Aug 2023 by GR Rossman
1960s
- Plyusnina II, Granadchikova BG, Voskresenskaya IE
(1969) Infrared spectroscopic study of tourmalines. Kristallografiya
14, 450-5.(in Russian)
1970s
- Plyushina II,
Voskresenskaya IE (1974) Determining more exactly several positions of
the crystal structure of tourmaline by infrared spectroscopy. Vestnik
Moskovskogo Universiteta, Seriya 4: Geologiya 29, 52-7 (in Russian)
1980s
- Gonzalez-Carreño, T., Fernandez, M., and Sanz, J. (1988) Infrared and
electron microprobe analysis of tourmalines. Physics and Chemistry of
Minerals, 15, 452–460.
- Yesinowski JP, Eckert H, Rossman GR (1988) Characterization
of Hydrous Species in Minerals by High-Speed 1H
MAS-NMR. Journal of the American Chemical Society
110, 1367-1375.
1990s
- Peng
M, Wang H (1995) A study on the vibrational spectra of water in
tourmaline. Kuangwu Xuebao 15, 372-377. (in Chinese)
- Gasharova
B, Mihailova B, Konsantinov L (1997) Raman spectra of various types of
tourmalines. European Journal of Mineralogy 9, 935-940.
2000s- Castañeda
C, Oliveira EF, Gomes N, Soares ACP (2000) Infrared study of OH sites
in tourmaline from the elbaite-schorl series, American. Mineralogist
85, 1503–1507
- Veličkov B (2002) Kristallchemie von Fe,
Mg-Turmalinen:: Synthese und spektroskopische
Untersuchungen - Dissertation: Technischen Universität Berlin
- Reddy BJ, Frost RL, Martens WN, Wain DL, Kloprogge JT (2007) Spectroscopic characterization of
Mn-rich tourmalines. Vibrational Spectroscopy 44, 42-49
2010s
- Hoang LH, Hien NTM, Chen XB, Minh NV, Yang I-S.
(2011) Raman spectroscopic study of various types of tourmalines.
Journal of Raman Spectroscopy, 42, 1443–1446.
- Gatta
A (2012) A single-crystal neutron and X-ray diffraction study of
elbaite. Physics and Chemistry of Minerals 39, 577-588.
- Skogby H, Bosi F, Lazor P (2012) Short-range order in
tourmaline: A vibrational spectroscopic approach to elbaite. Physics
and Chemistry of Minerals, 39, 811–816.
- Zhao C, Liao L, Xia Z, Sun X (2012) Temperature-dependent
Raman and infrared spectroscopy study on iron-magnesium tourmalines
with different Fe content. Vibrational Spectroscopy, 62, 28–34
- Fantini C, Tavares MC, Krambrock K, Moreira RL, Righi A (2014) Raman and infrared study of hydroxyl sites in natural
uvite, fluor-uvite, magnesio-foitite, dravite and elbaite tourmalines.
Physics and Chemistry of Minerals, 41, 247–254.
- Bosi F, Skogby H, Lazor P, Reznitskii L. (2015) Atomic
arrangements around the O3 site in Al- and Cr-rich oxy-tourmalines: a
combined EMP, SREF, FTIR and Raman study. Physics and Chemistry of
Minerals, 42, 441–453.
- Wunder
B, Berryman E, Plessen B, Rhede D, Koch-Muller M, Heinrich W (2015)
Synthetic and natural ammonium-bearing
tourmaline. American Mineralogist 100, 250-256.
- Berryman EJ,
Wunder B, Ertl A, Koch-Müller M, Rhede D, Scheidl K, Giester
G, Heinrich W (2016) Influence of the X-site composition on
tourmaline’s crystal structure: Investigation of synthetic K-dravite,
dravite, oxy-uvite, and magnesio-foitite using SREF and Raman
spectroscopy. Physics and Chemistry of Minerals, 43, 83–102.
- Bosi F, Skogby H, Balić-Žunić T (2016) Thermal stability
of extended clusters in dravite: A combined EMP, SREF and FTIR study.
Physics and Chemistry of Minerals, 43, 395–407.
- Kutzschbach, M., Wunder, B., Rhede, D., Koch-Müller, M., Ertl, A.,
Giester, G., Heinrich, W., and Franz, G. (2016) Tetrahedral boron in
natural and synthetic HP/UPH tourmaline: Evidence from Raman
spectroscopy, EMPA, and sinfle-crystal XRD. American Mineralogist, 101,
93–104.
- Watenphul A, Burgdorf M, Schlüter J, Horn I, Malcherek T,
Mihailova B (2016) Exploring the potential of Raman spectroscopy for
crystallochemical analyses of complex hydrous silicates: II.
Tourmalines. American Mineralo-gist, 101, 970–985.
- Mercurio
M, Rossi M, Izzo F, Cappelletti P, Germinario C, Grifa C, Petrelli M,
Vergara A, Langella A (2018) The characterization of natural
gemstones using non-invasive FT-IR spectroscopy: New data on
tourmalines. Talanta, 178, 147–159.
- Bronzova
Y, Babushkina M, Frank-Kamenetskaya O, Vereshchagin O, Rozhdestvenskaya
I, Zolotarev A (2019) Short-range order in Li-Al tourmalines: IR
spectroscopy, X-ray single crystal diffraction analysis and bond
valence theory approach. Physics and Chemistry of Minerals, 46, 815–825.
2020s- Pieczka A, Ertl A, Gołębiowska B, Jeleń P, Kotowski J, Nejbert K,
Stachowicz M, Giester G (2020) Crystal structure and Raman
spectroscopic studies of OH stretching vibrations in Zn-rich
fluor-elbaite/ American Mineralogist 105, 1622-1630.
- Yue SW, Yan XX, Lin JQ, Wang PL, Liu JF (2021) Spectroscopic
Characteristics and Coloring Mechanism of Brown Tourmaline Under
Heating Treatment. Spectroscopy and Spectral Analysis 41: 2524.
- Cámara
F, Bosi F, Skogby H, Hålenius U, Celata B, Ciriotti ME (2022) Schorl-1A
from Langesundsfjord (Norway). Journal of Geosciences 67, 129-139. DOI:
http://doi.org/10.3190/jgeosci.344
- Fuchs Y, Fourdrin C, Balan E (2022) Theoretical OH stretching vibrations in dravite. European Journal of Mineralogy 34, 239–251
- Mauro D, Biagioni C,
Hålenius U, Skogby H, Dottorini V, Bosi F (2022) Nickel- and Fe3+-rich
oxy-dravite from the Artana Mn prospect, Apuan Alps (Tuscany,
Italy).Journal of Geosciences 67, 141-150. DOI:
http://doi.org/10.3190/jgeosci.346
- Altieri A, Luppi R, Skobby H, Halenius U, Tempesta G, Pezzotta F,
Bosi F (2023)Thermal treatment of the tourmaline Fe‑rich princivalleite
Na(Mn2Al)Al6(Si6O18)(BO3)3(OH)3O. Physics and Chemistry of Minerals 50:27. https://doi.org/10.1007/s00269-023-01250-9
- Balan
E, Radtke B, Fourdrin C, Paulatto L, Horn HA, Fuchs Y (2023) Effect of
Fe–Fe interactions and X-site vacancy ordering on the OH-stretching
spectrum of foitite. European Journal of Mineralogy 35, 105–116.
- Li M, Hong HL (2023) Gemological and Spectrographic Characteristics
of Light-Green Tourmaline of Afghanistan. Spectroscopy and Spectral
Analysis 43, 2195-2201. (in Chinese)