OH in quartz

H in Quartz

Updated 6-Mar-2024 by GR Rossman

1940s

Saksena BD (1940) Analysis of the Raman and infra-red spectra of α-quartz Proceedings of the Indian Academy of Sciences - Section A 12, 93–139.

1950s

Saksena BD (1958) The Infra-Red Absorption Spectra of α-Quartz between 4 and 15 Microns. Proceedings of the Physical Society 72, 9.
Brunner GO, Wondratschek H, Laves F (1959) Über die Ultrarotabsorption des Quarzes im 3-µ-Gebiet. Naturwiss 46, 664.
Brunner GO, Wondratschek H, Laves F (1959) Zur Ultrarot-Absorption von Quarz und Feldspaten im 3-µ-Gebiet. Fortschritte der Mineralogie 38, 125-126.

1960s

King JC, Wood DL, Dodd DM (1960) Infrared and low-temperature acoustic absorption in synthetic quartz - Physical Review Letters, 4, 500-501
Brunner GO, Wondratschek H, Laves F (1961) Infrared studies on the incorporation of H in natural quartz. Zeitschrift für Elektrochemie undAngewandte Physikalische Chemie 65, 735-750.
Kats A (1962) Hydrogen in alpha-quartz. Philips Research Report 17, 133-195; 201-279.
Kats A, HavenY, Stevels JM (1962) Hydroxyl groups in alpha-quartz. Physics and Chemistry of Glasses 3, 69-75.
Dodd DM, Fraser DB (1965) The 3000-3900-cm^-1 absorption bands and aneleasticity in crystalline alpha-quartz. Physics and Chemistry of Solids 26, 673-86.
Dodd DM, Fraser DB (1967) Infrared studies of the variation of H-bonded OH in synthetic alpha-quartz. American Mineralalogis 52, 149–160.
Matsuki G, Fumiko I (1968) Hydrogen bonded OH in synthetic quartz. Japanese Journal of Applied Physics 7, 1136,

1970s

Wilkins RWT, Sabine W (1973) Water content of some nominally anhydrous silicates. American Mineralogist 58, 508–516.
Staats PA, Kopp OC (1974) Studies on the origin of the 3400 cm⁻¹region infrared bands of synthetic and natural α-quartz. J Physics and Chemistry of Solids 35 1029–1033.
Krefft GB (1975) Effects of high-temperature electrolysis on the coloration characteristics and OH-absorption bands in alpha-quartz. Radiation Effects 26, 259-269.
Chakraborty D, Lehmann, G (1976) On the structures and orientations of hydrogen defects in natural and synthetic quartz crystals. Physica Status Solidi A: Applied Research 34, 467-74.
Chakraborty D, Lehmann G (1976) Distribution of OH in synthetic and natural quartz crystals. Journal of Solid State Chemistry 17, 305-311.
Tsong IST, McLaren AC, Hobbs B (1976) Determnation of hydrogen in silicates using the ion beam spectrochemical analyzer: applilcation to hydrolytic weaking. American Mineralogist 61, 921-926.
Chakraborty D, Lehmann, G (1977) Infrared studies of x-ray irradiated and heat treated synthetic quartz single crystals. Neues Jahrbuch fuer Mineralogie, Monatshefte 1977, 289-98.
Godbeer WC, Wilkins RWT (1977) Water content of a synthetic quartz. American Mineralogist 62, 831-832.
Chakraborty D, Lehmann, G (1978) On the fine structure in the infrared spectra of clear natural quartz, amethyst, citrine and synthetic quartz crystals in the 3400 cm^-1 region. Zeitschrift fuer Naturforschung, Teil A: Astrophysik, Physik und Physikalische Chemie 33A, 290-293.
Brice JC, Cole AM (1979) Infrared absorption in alpha quartz. Journal of Physics D: Applied Physics 12, 459.

1980s

McLaren AC, Payling R (1980) The determination of hydrogen concentration in silicates using ion-beam spectrochemical analysis (IBSCA). Physics and Chemistry of Minerals, 5:315-26.
Moze O, Hicks TJ, McLaren, AC (1980) Determination of the hydrogen content of synthetic quartz by neutron polarization analysis. Physics and Chemistry of Minerals 5, 309-14.
Paterson MS (1982) The determination of hydroxyl by infrared-absorption in quartz, siicate-glasses and similar materials. Bulletin de Mineralogie 105, 20-29.
Aines RD, Rossman GR (1984) Water in minerals? A peak in the infrared. Journal of Geophysical Research 89, 4059-4072.
Aines RD, Kirby SH, Rossman GR (1984) Hydrogen speciation in synthetic quartz. Physics and Chemistry of Minerals 11, 204-212.
Aines RD, Rossman GR (1986) Relationships between radiation damage and trace water in zircon, quartz and topaz. American Mineralogist 71, 1186-1193.
Kronenberg AK, Kirby SH, Aines RD, Rossman GR (1986) Solubility and diffusional uptake of hydrogen in quartz at high water pressures: implications for hydrolytic weakening. Journal of Geophysical Research 91, 12,723-12,744.
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.
Gerretsen J, Paterson MS, McLaren AC (1989) The uptake and solubility of water in quartz at elevated pressure and temperature. Physics and Chemistry of Minerals 16, 334-42.
Newton-Howes JC, McLaren AC, Fleming RJ (1989) An investigation of the effects of hydroxyl concentration and bubble formation on the electrical conductivity of synthetic quartz. Tectonophysics 158, 335-42.
Yurimoto H, Kurosawa M. Sueno S (1989) Hydrogen analysis in quartz crystals and quartz glasses by secondary ion mass spectrometry. Geochimica et Cosmochimica Acta 53, 751-755.

1990s

Shinoda K, Aikawa N (1993) Polarized infrared absorbance spectra of an optically anisotropic crystal: Application to the orientation of the OH⁻ dipole in quartz. Physics and Chemisty of Minerals 20, 308–314.
Kronenberg AK (1994) Hydrogen speciation and chemical weakening of quartz, Reviews in Mineralogy and Geochemisty 29, 123–176.
Suzuki S, Nakashima S (1999) In-situ IR measurements of OH species in quartz at high temperatures. Physics and Chemistry of Minerals 26, 217-225.

2000s

Robertson J, Peacock PW (2003) Doping and hydrogen in wide gap oxides. Thin Solid Films 445, 155-160.
VS Balitsky DV Balitsky GV Bondarenko OV Balitskaya (2004) The 3543 cm−1 infrared absorption band in natural and synthetic amethyst and its value in identification. Gems & Gemology 40, 146–161.
Balitsky VS, Bondarenko BV, Balitskaya OV, Balitsky DV (2004) IR-spectroscopic characteristics of natural and synthetic amethyst in the region of 3000-3700 cm^-1, Doklady Earth Science 394, 120-123.
Karampelas S, Fritsch E (2004) Infrared absorption as a useful tool to separate natural from synthetic amethysts. Mitt Österr Mineral Ges 149 43
Muto J, Nagahama H, Hashimoto T (2004) Micro-infrared reflection spectroscopic mapping: application to the detection of hydrogen-related species in natural quartz, Journal of Microscopy 216, 222–228,
Stenina NG (2004) Water-related defects in quartz. Bulletin of Geosciences 79, 251-268.
Prasad PSR, Sarma DS (2005) Study of structural disorder in natural tourmalines by infrared spectroscopy. Gondwana Research 8, 265-270.
Stipp <. Ti;;os K. Behrens J (2006) Effect of water on the dislocation creep microstructure and flow stress of quartz and implications for the recrystallized grain size piezometer. Journal of Geophysical Research 111, pB04201
Muller A, Koch-Muller M (2008) Hydrogen speciation and trace element contents of igneous, hydrothermal and metamorphic quartz from Norway. 33d International Geological Congress. Mineralogical Magazine 73, 569-583.
Nunes EH, Melo V, Lameiras F, Liz O, Pinheiro A, Machado G, Vasconcelos W (2009) Determination of the potential for extrinsic color development in natural colorless quartz. American Mineralogist 94, 935-941.
Thomas SM, Koch-Mueller M, Reichart P, Rhede CX, Thomas R, Wirth R, Matsyuk S (2009) IR calibrations for water determination in olivine, r-GeO₂, and SiO₂ polymorphs. Physics and Chemistry of Minerals 36, 489-509.

2010s

SM Chemtob, GR Rossman, JF Stebbins (2012) Natural hydrous amorphous silica: Quantitation of network speciation and hydroxyl content by ²⁹Si MAS NMR and vibrational spectroscopy. American Mineralogist 97, 203-211.
Stalder R, Konzett J (2012) OH-defects in quartz in the system quartz - albite - water and granite - water between 5 and 25 kbar. Physics and Chemistry of Minerals 39, 817-827.
Stalder R, Neuser RD (2013) OH-defects in detrital quartz grains: potential for application as tool for provenance analysis and overview over crustal average. Sedimentary Geology 294, 118-126.
Stalder R (2014): OH-defect content in detrital quartz grains as an archive for crystallisation conditions. Sedimentary Geology 307, 1-6.
Baron MA, Stalder R, Konzett J, Hauzenberger CA (2015) OH-point defects in quartz in B- and Li-bearing systems and their application to pegmatites. Physics And Chemistry Of Minerals 42, 53-62.
Frigo C, Stalder R, Hauzenberger C (2016) OH defects in quartz in granitic systems doped with spodumene, tourmaline and/or apatite: experimental investigations at 5–20 kbar. In: Physics and Chemistry of Minerals 43, 717-729.
Biró T, Kovács I, Karátson D, Stalder R, Király E, Falus G, Fancsik T, Sándorné J (2017) Evidence for post-depositional diffusional loss of hydrogen in quartz phenocryst fragments within ignimbrites. American Mineralogist 102, 1187-1201.
Kronenberg AK, Hasnan HFB, Holyoke III CW, Law RD, Liu Z, Thomas JB (2017) Synchrotron FTIR imaging of OH in quartz mylonites. Solid Earth 8, 1025–1045.
Stalder R, Potrafke A, Billström K, Skogby H, Meinhold G, Gögele, C, Berberich T (2017) OH-defects in quartz as monitor for igneous, metamorphic and sedimentary processes. American Mineralogist 102, 1832-1842.
Jaeger D, Stalder R, Masago H, Strasser M (2019) OH defects in quartz as a provenance tool: Application to fluvial and deep marine sediments from SW Japan. Sedimentary Geology 388, 6-80.
Potrafke A, Stalder R, Schmidt B, Ludwig T (2019) OH defect contents in quartz in a granitic system at 1-5 kbar. Contributions to Mineralogy and Petrology 174/12, No. 98.
Stalder R, von Eynatten H, Costamoling J, Potrafke A, Dunkl I, Meinhold G (2019): OH in detrital quartz grains as tool for provenance analysis: Case studies on various settings from Cambrian to Recent. Sedimentary Geology 389, 121-126.

2020s

Jollands MC, Blanchard M, Balan E (2020) Structure and theoretical infrared spectra of OH defects in quartz. European Journal of Mineralogy 32, 311-323.
Potrafke A, Breiter K, Ludwig T, Neuser, RD, Stalder R (2020) Variations of OH defects and chemical impurities in quartz within igneous bodies. Physics and Chemistry of Minerals 47, 24.
Stalder R (2021) OH point defects in quartz – a review. European Journal of Mineralogy 33, 145–163
Fukuda J, Okudaira T, Ohtomo Y (2023) Water release and homogenization by dynamic recrystallization of quartz. Solid Earth, 14, 409–424
Stünitz H, Raimbourg H, Nègre L, Précigout J, Jollands M, Pongrac P, Jeřabek P, Gies N, Lüder M (2024) Evolution of H₂O content in deforming quartz aggregates: An experimental study. Journal of Structural Geology 178, 105029