Identifiers | |
---|---|
Properties | |
Sm2(MoO4)3 | |
Appearance | white solid [1] |
insoluble | |
Except where otherwise noted, data are given for materials in their
standard state (at 25 °C [77 °F], 100 kPa).
|
Samarium(III) molybdate is an inorganic compound, with the chemical formula Sm2(MoO4)3. It is one of the compounds formed by the three elements samarium, molybdenum and oxygen.
Samarium(III) molybdate can be obtained by reacting samarium(III) nitrate and sodium molybdate in the pH range of 5.5~6.0. [2] Its single crystal can be grown at 1085 °C by the Czochralski method. [3]
Samarium(III) molybdate can also be prepared by reacting samarium and molybdenum(VI) oxide:
Samarium(III) molybdate forms violet crystals of several modifications:
Samarium(III) molybdate exhibits ferroelectric properties. [6] It forms a crystalline hydrate with the composition Sm2(MoO4)3•2H2O.
Samarium(III) molybdate can be reduced to the tetravalent molybdenum compound Sm2Mo3O9 by hydrogen at 500~650 °C. [7]
{{
cite journal}}
: CS1 maint: multiple names: authors list (
link)
Identifiers | |
---|---|
Properties | |
Sm2(MoO4)3 | |
Appearance | white solid [1] |
insoluble | |
Except where otherwise noted, data are given for materials in their
standard state (at 25 °C [77 °F], 100 kPa).
|
Samarium(III) molybdate is an inorganic compound, with the chemical formula Sm2(MoO4)3. It is one of the compounds formed by the three elements samarium, molybdenum and oxygen.
Samarium(III) molybdate can be obtained by reacting samarium(III) nitrate and sodium molybdate in the pH range of 5.5~6.0. [2] Its single crystal can be grown at 1085 °C by the Czochralski method. [3]
Samarium(III) molybdate can also be prepared by reacting samarium and molybdenum(VI) oxide:
Samarium(III) molybdate forms violet crystals of several modifications:
Samarium(III) molybdate exhibits ferroelectric properties. [6] It forms a crystalline hydrate with the composition Sm2(MoO4)3•2H2O.
Samarium(III) molybdate can be reduced to the tetravalent molybdenum compound Sm2Mo3O9 by hydrogen at 500~650 °C. [7]
{{
cite journal}}
: CS1 maint: multiple names: authors list (
link)