Structure and Thermal Stability of Nanostructured Precursor Powders of Copper(I) Sulfide and Selenide

Structure and Thermal Stability of Nanostructured Precursor Powders of Copper(I) Sulfide and Selenide

The hydrochemical precipitation method at 298 and 333 K with, respectively, thiocarbamide and sodium selenosulfate was used to obtain nanostructured powders of copper sulfide with formula composition Cu 2 S, which are composed of globules 200–500 nm in diameter, formed by 70–100-nm particles, and co...

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Veröffentlicht in:Russian journal of applied chemistry 2017-10, Vol.90 (10), p.1572-1578
Hauptverfasser: Maskaeva, L. N., Markov, V. F., Fedorova, E. A., Berg, I. A., Samigullina, R. F., Voronin, V. I.
Format: Artikel
Sprache:eng
Schlagworte:
Chemistry
Chemistry and Materials Science
Chemistry/Food Science
Copper
Copper sulfides
Crystallites
Cubic lattice
Diffraction
Globules
Industrial Chemistry/Chemical Engineering
Inorganic Synthesis and Industrial Inorganic Chemistry
Lattice parameters
Nanostructure
Oxidation
Precursors
Selenium
Thermal analysis
Thermal stability
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container_end_page 1578
container_issue 10
container_start_page 1572
container_title Russian journal of applied chemistry
container_volume 90
creator Maskaeva, L. N.
Markov, V. F.
Fedorova, E. A.
Berg, I. A.
Samigullina, R. F.
Voronin, V. I.
description The hydrochemical precipitation method at 298 and 333 K with, respectively, thiocarbamide and sodium selenosulfate was used to obtain nanostructured powders of copper sulfide with formula composition Cu 2 S, which are composed of globules 200–500 nm in diameter, formed by 70–100-nm particles, and copper(I) selenide, composed of crystallites with polyhedral shape, sizes of 80 to 500 nm, and a formula composition Cu 1.84 Se. An X-ray diffraction analysis revealed the orthorhombic Cu 2 S structure (space group no. 39- Abm2 ) with unit cell parameters a = 1.182 nm, b = 2.705 nm, and c = 1.343 nm. Powders of Cu 1.84 Se copper selenide have a cubic structure (space group Fm3m ) with lattice constant a = 0.5693 nm. A thermal analysis demonstrated that the chemically precipitated Cu 2 S and Cu 1.84 Se powders have a stable elemental composition up to 200–240°C. An intense oxidation of the samples begins at a temperature exceeding 250°C and is accompanied by a sharp decrease in their content of sulfur (selenium) and by an increase in the content of oxygen.
doi_str_mv 10.1134/S1070427217100032
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subjects Chemistry
Chemistry and Materials Science
Chemistry/Food Science
Copper
Copper sulfides
Crystallites
Cubic lattice
Diffraction
Globules
Industrial Chemistry/Chemical Engineering
Inorganic Synthesis and Industrial Inorganic Chemistry
Lattice parameters
Nanostructure
Oxidation
Precursors
Selenium
Thermal analysis
Thermal stability
title Structure and Thermal Stability of Nanostructured Precursor Powders of Copper(I) Sulfide and Selenide
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