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| SCANDIUM SULFIDE Basic information |
Product Name: | SCANDIUM SULFIDE | Synonyms: | SCANDIUM SULFIDE;discandium trisulphide;SCANDIUM(III) SULFIDE, 99.99%;Scandium (III) sulfide, 99.9% (metals basis);scandium(III) sulfide | CAS: | 12166-29-9 | MF: | H2SSc | MW: | 79.03 | EINECS: | 235-320-1 | Product Categories: | | Mol File: | 12166-29-9.mol |  |
| SCANDIUM SULFIDE Chemical Properties |
Melting point | 1775°C | density | 2.910 | form | yellow orthorhombic crystals | color | yellow orthorhombic crystals, crystalline | crystal system | Nogata | Space group | Fddd | Lattice constant | a/nm | b/nm | c/nm | α/o | β/o | γ/o | V/nm3 | 1.041 | 0.738 | 2.205 | 90 | 90 | 90 | 1.694 |
| EPA Substance Registry System | Scandium sulfide (Sc2S3) (12166-29-9) |
| SCANDIUM SULFIDE Usage And Synthesis |
Preparation | Scandium(III) sulfide, Sc2S3, is a yellow solid. Metal sulfides are typically prepared by heating mixtures of the two
elements, but in the case of scandium, this method results in the formation of scandium monosulfide, ScS. Sc2S3 can be
produced by heating scandium(III) oxide under flowing hydrogen sulfide in a graphite crucible to 1550℃ or higher for
2-3 hours. The crude product is subsequently purified by chemical vapor transport at 950℃ utilizing iodine as the
transport agent. Sc2O3+3H2S→Sc2S3 +3H2O | Structure and conformation | The crystal structure of Sc2S3 is similar to that of sodium chloride, in that it is based on a cubic close-packed array of
anions. While NaCl has all the octahedral interstices in the anion lattice occupied by cations, Sc2S3 has one-third of
them vacant. The vacancies are ordered, but in a very complicated pattern, resulting in a large, orthorhombic unit cell
belonging to the space group Fddd. Above 1100℃, Sc2S3 loses sulfur, resulting in nonstoichiometric compounds such
as Sc1.37S2. |
| SCANDIUM SULFIDE Preparation Products And Raw materials |
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