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Zinc selenide

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Zinc selenide Basic information

Product Name:
Zinc selenide
Synonyms:
  • ZINC SELENIDE
  • ZINC SELENIDE, SPECTRO
  • ZINC SELENIDE, POWDER, 5 MICRON, 99.99%
  • ZINC SELENIDE COATING QUALITY UMICORE, 0.7-3.5 MM
  • ZINC SELENIDE, RANDOM PIECES, OPTICAL GRADE
  • ZincSelenide,ElectronicGrade
  • Zinc selenide, 99.99%
  • Zinc selenide, 99.999% (metals basis)
CAS:
1315-09-9
MF:
SeZn
MW:
144.35
EINECS:
215-259-7
Product Categories:
  • metal chalcogenides
  • Micro/Nanoelectronics
  • Solution Deposition Precursors
  • Zinc
  • ChalcogenidesMicro/Nanoelectronics
  • Electronic Chemicals
  • Materials Science
  • Metal and Ceramic Science
  • Semiconductor Grade Chemicals
  • Chalcogenides
Mol File:
1315-09-9.mol
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Zinc selenide Chemical Properties

Melting point:
1100 °C
Density 
5.42 g/mL at 25 °C(lit.)
solubility 
insoluble in H2O; soluble in dilute acid solutions
form 
random pieces
color 
Yellow
Specific Gravity
5.42
Water Solubility 
Insoluble in water. Decomposes in dilute nitric acid.
Sensitive 
Air Sensitive
Merck 
14,10156
Solubility Product Constant (Ksp)
pKsp: 25.44
Exposure limits
ACGIH: TWA 0.2 mg/m3
NIOSH: IDLH 1 mg/m3; TWA 0.2 mg/m3
CAS DataBase Reference
1315-09-9(CAS DataBase Reference)
EPA Substance Registry System
Zinc selenide (ZnSe) (1315-09-9)
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Safety Information

Hazard Codes 
T,N
Risk Statements 
23/25-33-50/53
Safety Statements 
20/21-28-45-60-61
RIDADR 
UN 3283 6.1/PG 2
WGK Germany 
3
TSCA 
Yes
HazardClass 
4.3
PackingGroup 
III
HS Code 
28429090

MSDS

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Zinc selenide Usage And Synthesis

Description

Zinc selenide (ZnSe) is an II-VI compound semiconductor material with a face-centred cubic crystal structure and excellent physicochemical properties, which has a wide range of transmittance, from 0.5 microns to 19 microns. Zinc selenide is a very good infrared material, mainly used in infrared optics and optoelectronics, and can be used to manufacture window materials, focusing lenses, beam splitters, prisms, and CO2 lasers. Zinc selenide is also commonly used as lenses and windows for CO2 lasers due to its good imaging and thermal shock properties.

Chemical Properties

Zinc selenide(ZnSe) is a yellow shiny fine powder that rarely occurs in nature. It is a chemically inert, non-hygroscopic and highly pure material largely found in the mineral stilleite. The transmissivity of zinc selenide is relatively constant over the wavelength range between 0.7 × 10 -6 to 16 × 10 -6 m, making it an excellent choice for flare radiation measurement. ZnSe is highly transparent to the radiation emitted from a flare flame. It is effective in many optical applications owing to its high resistance to thermal shock, stability in virtually all environments and extremely low bulk losses.

Uses

Zinc selenide (ZnSe) is used as an infrared optical material with wide transmission wavelength range. It is also used as an entrance optic in the new range of "in-ear" clinical thermometers. ZnSe is used as a semiconductor material for thin film devices, and n-type windows layer for thin film heterojunction solar cells. ZnSe activated with tellurium is a scintillator suitable for matching with photodiodes. It is used in x-ray and gamma ray detectors. Zinc selenide films are useful in photovoltaic cells and solar conversion cells. The material can be doped with n-type and p-type doping. It is used to form light-emitting diodes and diode lasers. ZnSe doped with chromium finds use as an IR laser gain medium.

Air & Water Reactions

ZnSe is insoluble in water, but reacts with acids to form toxic hydrogen selenide gas. It can be deposited as a thin film by chemical vapour deposition techniques including MOVPE and vacuum evaporation.

Hazard

Fire risk in contact with water or acids.

Synthesis

Zinc Selenide is produced by synthesis from Zinc vapour and H2Se gas, forming as sheets on Graphite susceptors. Another method of producing is a growth from melt under excessive pressure of inert gas (Ar usually).

References

[1] HYUN SEON HONG. Facile synthesis and characterization of zinc selenide nanoparticles in aqueous solution at room temperature[J]. Journal of Crystal Growth, 2020, 535: Article 125523. DOI:10.1016/j.jcrysgro.2020.125523.
[2] HILE D D, SWART H C, MOTLOUNG S V, et al. Zinc selenide semiconductor: synthesis, properties and applications[J]. Nanoscale Compound Semiconductors and their Optoelectronics Applications, 2022. DOI:10.1016/b978-0-12-824062-5.00001-4.
[3] https://www.crystran.co.uk/optical-materials/zinc-selenide-znse

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