Strontiumselenid Chemische Eigenschaften,Einsatz,Produktion Methoden
R-S?tze Betriebsanweisung:
R23/25:Giftig beim Einatmen und Verschlucken.
R33:Gefahr kumulativer Wirkungen.
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S-S?tze Betriebsanweisung:
S20/21:Bei der Arbeit nicht essen, trinken,rauchen.
S28:Bei Berührung mit der Haut sofort abwaschen mit viel . . . (vom Hersteller anzugeben).
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Beschreibung
Strontium selenide has the molecular formula of SrSe and the molecular weight of 166.5852 g/mol. It is a white cubic crystal whose CAS number is 1315-07-7. Its melting point is 1605°C and its density is 4.54 g/cm
3. It reacts with water and so cannot be prepared by an aqueous precipitation method. It can be prepared by the reaction of the oxide with Se metal:
2SrO+ Se+ Heat ? SrSe+ SeO2
It can also be prepared by reducing the selenate with hydrogen gas:
SrSeO4 + 4H2 + heat ? SrSe+ 4H2O
Strontium selenide and barium selenide both have a simple cubic structure, with cube edges equal to 3.117? and 3.308 ?, respectively. In the case of SrSe, the ions at the corners are Sr
++ and Se
--。
Chemische Eigenschaften
white cub; -20 mesh with 99.5% purity [CER91] [CRC10]
Physikalische Eigenschaften
Phosphors can be categorized in accordance with
their behavior as fluorescent, phosphorescent or stimulable.
As used in this disclosure, such categories
should be understood as based upon the predominant
behavior of the phosphor at about room temperature,
i.e at about 20°C.
? A “stimulable” phosphor is one that, at room
temperature, stores energy absorbed upon exposure
to excitation by electromagnetic radiation and releases
the predominant portion of the stored energy upon
exposure to stimulating electromagnetic radiation.
? A phosphorescent phosphor at room temperature will
store absorbed energy for an appreciable time but will
release the predominant portion of the stored energy
spontaneously.
? A fluorescent phosphor will release the predominant
portion of the absorbed energy as emission radiant
energy substantially simultaneously with exposure to
the exciting radiant energy.
Verwenden
The major usage of SrSe has been as an infrared stimulable
phosphor. Photoluminescent materials useful for
detection of infrared light are prepared using a base material, such as SrSe. Up to three dopants, Sm3+,
cerium, Ce
3+
and Eu
2+
compounds are used for the
purpose of providing electron traps. The base material
can be a combination of alkaline earth metal selenides
such as strontium selenide, calcium selenide, or
a mixture of these. Luminescence is a long known
phenomenon of nature reaching back very far in history.
Recorded observations reach back to the last century.
Seeback and Becquerel observed momentary visible
afterglow in certain materials.
Synthese
Pure SrSe is best obtainedfrom the selenite by high-temperature
reduction with NH3.
SrSeO3 + 2NH3 = SrSe + 3 H2O + N2
Strontiumselenid Upstream-Materialien And Downstream Produkte
Upstream-Materialien
Downstream Produkte