'Zinc sulfide' (or zinc sulphide) is a
chemical compound with the
formula ZnS. Zinc sulfide is a white to yellow colored powder or crystal. It is typically encountered in the more stable cubic form, known also as the mineral
sphalerite. The hexagonal form is also known both as a synthetic material and as the mineral
wurtzite. Both sphalerite and wurtzite are intrinsic, wide-
bandgap semiconductors. The cubic form has a
band gap of 3.54
eV at 300
K whereas the hexagonal form has a band gap of 3.91
eV.
A transition from the sphalerite form to the wurtzite form occurs at around 1293.15
K. Sphalerite melts at 1991
K. It has a standard
enthalpy of formation of −204.6 k
J mol−1 at 298 K.
Applications
ZnS was used by
Ernest Rutherford and others in the early years of
nuclear physics as a
scintillation detector, because it emits light on excitation by
x-rays or
electron beam, making it useful for x-ray screens and
cathode ray tubes. It also exhibits
phosphorescence due to impurities on illumination with blue or
ultraviolet light.
Zinc sulfide, with addition of few
ppm of suitable activator, is used as
phosphor in many applications, from
cathode ray tubes through
x-ray screens to
glow in the dark products. When
silver is used as activator, the resulting color is bright blue, with maximum at 450
nm.
Manganese yields an orange-red color at around 590 nm.
Copper provides long glow time and the familiar glow-in-the-dark greenish color. Copper doped zinc sulfide (ZnS:Cu) is used also in
electroluminescent panels.
Zinc sulfide is also used as an
infrared optical material, transmitting from visible
wavelengths to over 12
micrometres. It can be used planar as an
optical window or shaped into a
lens. It is made as microcrystalline sheets by the synthesis from H2S gas and zinc vapour and sold as FLIR (Forward Looking IR) grade ZnS a pale milky yellow visibly opaque form. This material when
hot isostatically pressed (HIPed) can be converted to a water-clear form known as 'Cleartran' (trademark). Early commercial forms were marketed as 'Irtran-2' but this designation is now obsolete.
It can be
doped as both
n-type semiconductor and
p-type semiconductor, which is unusual for the
II-VI semiconductors. ZnS is a
covalently bonded solid.
See also
★
Zinc oxide
★
Zinc selenide
★
Cadmium sulfide
References
1. Zinc Sulfide HSB Search results 'Melting Point: 1700 deg C' ... 'CLASSIFICATION: D; not classifiable as to human carcinogenicity' ... 'Zinc sulfide, as well as barium sulfate which was similarly encountered /from liquid center of golf ball accidentally squirted into eye of 2 children/, produced only slight macrophage reaction and negligible tissue damage'
2. ZINC SULPHIDE KORTH KRISTALLE GMBH '1830°C (sublimation)'
3. [www.springerlink.com/index/d5btmradh2rabvd7.pdf] 'Under normal pressure ZnS sublimes before melting'
4. Boiling Point diracdelta.co.uk science and engineering encyclopedia
External links
★
Composition of CRT phosphors
★
IR filters University of Reading
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