H in tourmaline

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)