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−1 region 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, Nčgre 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