Preparation and some properties of synthetic proustite single crystals

Holovey, M. I.; Olexeyuk, I. D.; Гурзан, М. І.; Rez, I. S.; Panyko, V. V.; Voroshilov, Yu. V.; Rigan, M. Yu.; Ganeyev, I. G.; Bogdanova, A. V.

doi:10.1002/crat.19710060507

Cited by 7 publications

(1 citation statement)

References 12 publications

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“…75-13. 5 u) and the nonlinear nature of their optical characteristics, have found application in laser techniques as crystals for frequency transformers of radiation from optical quantum generators (Guseva et al, 1968;Amman and Yarborough, 1970;Feichtner etal., 1970;Holovey et al, 1971;Hordvik et al, 1971). Such complex sulfides as enargite, luzonite, famatinite, and sulvanite, and also proustite and pyrargyrite noted above, are extremely promising as semiconductor minerals ( Butsko et al, 1967;Goryunova, 1968;Bergman and Hftnsler, 1936).…”

mentioning

confidence: 94%

Width of zone forbidden to complex sulfides (sulfo-salts) as determined by their crystollochemical characteristics

Platonov

Mozgova

1975

International Geology Review

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mentioning

confidence: 94%

Width of zone forbidden to complex sulfides (sulfo-salts) as determined by their crystollochemical characteristics

Platonov

Mozgova

1975

International Geology Review

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Preparation and some physical‐chemical properties of synthetic pyrargyrite single crystals

Holovey¹,

Гурзан²,

Olexeyuk³

et al. 1973

Cryst Res and Technol

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We used the same methods as for the preparation of proustite crystals (HOLOVE Y et al.), their identification, the investigation of their properties, so far pyrargyrite haa proved to be an analog of proustite. Ag and S were refined by methods described earlier (HOLOVEY et a]), Sb by zone melting. The quality control was done by chemical-spectral analysis. The ingot middle part had contents of 10+ w.% Cr, Ni, Ti, Si, Mg; 10-'I w.% Cu, other impurities have not been discovered after 25 zone runs.The compound synthesis (70-100 g in weight) was carried out from elementary components by a direct method with vibrate mixing. Synthesis regime was read from the P-T state diagram of elementary compounds and T-X diagrams of Ag-Sb, It could be stated that the rate of reaction till to 660 "C is rather small (the relative yield was about 0.4 @;/hour), in connection with it long exposures a t this temperature are necessary. Increasing of the reaction rate with temperatures growing higher than 650 "C is not possible because of the interaction character in the Sb-S system (KEIQHIN, HONEA). Experimental datas are in agreement with literature. Heating above 650 "C often led to explosions. The product of synthesis was cooled in a horizontal container in order to prevent its cracking Sb-S. 30 griStU/T'echnik, Bd. 8. H. 4

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Ag-As-S (Silver-Arsenic-Sulfur)

2006

Landolt-Börnstein - Group IV Physical Chemistry

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Preparation and some properties of synthetic proustite single crystals

Cited by 7 publications

References 12 publications

Width of zone forbidden to complex sulfides (sulfo-salts) as determined by their crystollochemical characteristics

Width of zone forbidden to complex sulfides (sulfo-salts) as determined by their crystollochemical characteristics

Preparation and some physical‐chemical properties of synthetic pyrargyrite single crystals

Ag-As-S (Silver-Arsenic-Sulfur)

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