High Purity Tellurium Sputtering Targets
High Purity Tellurium Sputtering Targets
SKU:TEL-1b50a2
Explore our high purity Tellurium Sputtering Targets for exceptional semiconductor deposition performance. Ideal for research and industrial applications.
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$89.99
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High Purity Tellurium Sputtering Targets
$89.99
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High Purity Tellurium Sputtering Targets
$89.99
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Our Tellurium (Te) Sputtering Targets are crafted for precision in sputtering processes, ensuring consistent performance. With attributes like a 3mm thickness, 50mm diameter, and high purity, these targets are ideal for semiconductor and electronics applications. Tellurium's unique properties make it a sought-after material for enhancing device efficiency and performance. Suitable for both research institutions and industrial settings.
Product Specifications
Atomic Properties Atomic Number
52
Atomic Properties Atomic Radius Goldschmidt
0 nm
Atomic Properties Atomic Weight
127.60000 amu
Atomic Properties Crystal Structure
Hexagonal
Atomic Properties Electronic Structure
Kr4d105s25p4
Atomic Properties Ionization Potential Number
1 | 2 | 3 | 4 | 5 | 6
Atomic Properties Ionization Potential Number 1
9.01 eV
Atomic Properties Ionization Potential Number 2
18.6 eV
Atomic Properties Ionization Potential Number 3
28.0 eV
Atomic Properties Ionization Potential Number 4
37.4 eV
Atomic Properties Ionization Potential Number 5
58.8 eV
Atomic Properties Ionization Potential Number 6
70.7 eV
Atomic Properties Natural Isotope Distribution Mass Number
120 | 122 | 123 | 124 | 125 | 126 | 128 | 130
Atomic Properties Natural Isotope Distribution Mass Number 120
0.1 %
Atomic Properties Natural Isotope Distribution Mass Number 122
2.5 %
Atomic Properties Natural Isotope Distribution Mass Number 123
0.9 %
Atomic Properties Natural Isotope Distribution Mass Number 124
4.6 %
Atomic Properties Natural Isotope Distribution Mass Number 125
7.0 %
Atomic Properties Natural Isotope Distribution Mass Number 126
18.7 %
Atomic Properties Natural Isotope Distribution Mass Number 128
31.7 %
Atomic Properties Natural Isotope Distribution Mass Number 130
34.5 %
Atomic Properties Photo Electric Work Function
4.80 eV
Atomic Properties Thermal Neutron Absorption Cross Section
4.7000 Barns
Atomic Properties Valences Shown
2 | 4 | 6
Electrical Properties Electrical Resistivity At 0 Degree Celsius
1.6 x 105 µΩ·cm
Material Material
TelluriumTellurium was discovered in 1783 by Baron Franz Josef Müller von Reichenstein in Sibiu, Roumania. Tellurium is a rare, silvery-white, semi-metallic element which exhibits both metallic and non-metallic traits and has an abundance of 0.005 ppm in the earth's crust. It exists in only one form, whereas the other members of the oxygen group of elements in the periodic table all exhibit at least two allotropic forms. It is generally found in combination with other elements, and can be isolated from the fine dusts of telluride gold ores. Tellurium will burn in air and oxygen, is unaffected by water or HCl, but is soluble in HNOâ. Tellurium has p-type semiconductor properties and, hence, is used in the electronics industry. The metal is used in the refining of zinc where it eliminates cobalt from the process. Other metallurgical applications include its use as an alloying element with, for example copper and stainless steel, the resulting alloys having improved machineability. Contact with either the pure metal or its compounds is to be avoided as they are not only toxic, but inhalation of the vapours leads to unpleasant body odours!
Mechanical Properties Bulk Modulus Polycrystalline
31.4 GPa
Mechanical Properties Hardness Mohs Polycrystalline
2.30
Mechanical Properties Material Condition
Polycrystalline
Mechanical Properties Poissons Ratio Polycrystalline
0.160 to 0.300
Mechanical Properties Tensile Modulus Polycrystalline
47.10 GPa
Physical Properties Boiling Point
990 ºC
Physical Properties Density At 20 Degree Celsius C Temperature
6.250 g·cm-3
Specifications Diameter
50 mm
Specifications Thickness
3 mm
Thermal Properties Coefficient Of Thermal Expansion At 0 To 100
16.750 x10-6 K-1
Thermal Properties Latent Heat Of Evaporation
820 Jg-1
Thermal Properties Latent Heat Of Fusion
138.00 Jg-1
Tolerances Disc Diameter Tolerance
0.5 mm