Strontium titanate

Tausonite (strontium titanate)
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General
CategoryMineral
FormulaSrTiO3
Identification
Colour brown, reddish, grey (colourless)
Habit Cubes, octahedrons (boules)
System Cubic
Cleavage None
Fracture Conchoidal - brittle
Hardness 6–6.5 (5.5)
Lustre Adamantine
RI2.41 - isotropic
Pleochroism None
Streak Brown in natural
SG 4.88 (5.13)
Fusibility Synthetics melt at 2080°C
Solubility Synth. resistant to most solvents

Strontium titanate is an oxide of strontium and titanium with the chemical formula SrTiO3. It is a centrosymmetric non-ferroelectric material with a perovskite structure. It was long thought to be a wholly artificial material, until 1982 when its natural counterpart—discovered in Siberia and named tausonite—was recognised by the IMA. Tausonite remains an extremely rare mineral in nature, occurring as very tiny crystals. Its most important application has been in its synthesized form wherein it is occasionally encountered as a diamond simulant, in precision optics, in varistors, and in advanced ceramics.

The name tausonite was given in honour of Lev Vladimirovich Tauson (1917-1989), a Russian geochemist. Disused trade names for the synthetic product include strontium mesotitanate, Fabulite, Diagem, and Marvelite.

Other than its type locality of the Murun Massif in the Sakha Republic, natural tausonite is also found in: Cerro Sarambi, Concepción department, Paraguay; and along the Kotaki River of Honshu Island, Japan.

Contents

Properties

Strontium titanate is both much denser (specific gravity 4.88 for natural, 5.13 for synthetic) and much softer (Mohs hardness 6–6.5 for natural, 5.5 for synthetic) than diamond. Its crystal system is cubic and its refractive index (2.41—as measured by sodium light, 589.3 nm) is nearly identical to that of diamond, but the dispersion (the optical property responsible for the "fire" of the cut stones) of strontium titanate is over four times higher, at 0.19 (B–G interval). This results in an excess of fire when compared to diamond.

Synthetics are usually transparent and colourless, but can be doped with certain rare earth or transition elements to give reds, yellows, browns, and blues. Natural tausonite is usually translucent to opaque, in shades of reddish brown, dark red, or grey. Both have an adamantine (diamond-like) lustre. Strontium titanate is considered extremely brittle with a conchoidal fracture; natural material is cubic or octahedral in habit and streaks brown. Through a hand-held (direct vision) spectroscope, doped synthetcis will exhibit a rich absorption spectrum typical of doped stones. Synthetic material has a melting point of ca. 2080°C (3776°F) and are readily attacked by hydrofluoric acid.

Also possessed by synthetic material is a very large dielectric constant (300), and at very low temperatures, piezoelectric and superconductive properties.

Synthesis

Synthetic strontium titanate was one of several titanates patented during the late 1940s and early 1950s; other titanates included barium titanate and calcium titanate. Research was conducted primarily at the National Lead Company (later renamed N. L. Industries, Inc.) in the United States, by Leon Merker and Langtry E. Lynd. Merker and Lynd first patented the growth process on February 10, 1953; a number of refinements were subsequently patented over the next four years, such as modifications to the feed powder and additions of colouring dopants.

A modification to the basic Verneuil process (also known as flame-fusion) is the favoured method of growth. An inverted oxy-hydrogen blowpipe is used, with feed powder mixed with oxygen carefully fed through the blowpipe in the typical fashion, but with the addition of a third pipe to deliver oxygen—creating a tricone burner. The extra oxygen is required for successful formation of strontium titanate, which would otherwise fail to oxidize completely due to the titanium component. The ratio is ca. 1.5 volumes of hydrogen for each volume of oxygen. The highly purified feed powder is derived by first producing titanyl double oxalate salt (SrTiO(C2O4)2.2H2O) by reacting strontium chloride (SrCl2) and oxalic acid ((COOH)2.2H2O) with strontium tetrachloride (TiCl4). The salt is washed to completely eliminate chloride, heated to 1000°C in order to produce a free-flowing granular powder of the required composition, and is then ground and seived to ensure all particles are between 0.2–0.5 micrometres in size.

The feed powder falls through the oxy-hydrogen flame, melts, and lands on a rotating and slowly descending pedestal below. The height of the pedestal is constantly adjusted to keep its top at the optimal position below the flame, and over a number of hours the molten powder cools and crystallises to form a single pedunculated pear or boule crystal. This boule is usually no larger than 2.5 centimetres in diameter and 10 centimetres long; it is an opaque black to begin with, requiring further annealing in an oxidizing atmosphere in order to make the crystal colourless and to relieve strain. This is done at over 1000°C for 12 hours.

Use as a diamond simulant

Its cubic structure and high dispersion once made synthetic strontium titanate a prime candidate for simulating diamond. Beginning ca. 1955, large quantities of strontium titanate were manufactured for this sole purpose. Strontium titanate was in competition with synthetic rutile ("titania") at the time, and had the advantage of lacking the unfortunate yellow tinge and strong birefringence inherent to the latter material. While it was softer, it was significantly closer to diamond in likeness. Eventually, however, both would fall into disuse, being eclipsed by the creation of "better" simulants: first by yttrium aluminium garnet (YAG) and followed shortly after by gadolinium gallium garnet (GGG); and finally by the (to date) ultimate simulant in terms of diamond-likeness and cost-effectiveness, cubic zirconia.

Despite being outmoded, strontium titanate is still manufactured and periodically encountered in jewellery. It is one of the most costly of diamond simulants, and due to its rarity collectors may pay a premium for large i.e. >2 carat (400 mg) specimens. As a diamond simulant, strontium titanate is most deceptive when mingled with melée i.e. <0.20 carat (40 mg) stones and when it is used as the base material for a composite or doublet stone (with, e.g., synthetic corundum as the crown or top of the stone). Under the microscope, gemmologists distinguish strontium titanate from diamond by the former's softness—manifested by surface abrasions—and excess dispersion (to the trained eye), and occasional gas bubbles which are remnants of synthesis. Doublets can be detected by a join line at the girdle ("waist" of the stone) and flattened air bubbles or glue visible within the stone at the point of bonding.

References

  • Nassau, K. (1980). Gems made by man, pp. 214–221. Gemological Institute of America; Santa Monica, California. ISBN 087330161
  • O'Donoghue, M. (2002). Synthetic, imitation & treated gemstones, p. 34, 65. Elsevier Butterworth-Heinemann, Great Britain. ISBN 0705631732
  • Read, P. G. (1999). Gemmology, second edition; p. 173, 176, 177, 293. Butterworth-Heinemann, Great Britain. ISBN 0750644117
  • Webmineral. Tausonite. Retrieved February 19, 2005 from http://webmineral.com/data/Tausonite.shtml
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