Product | Antimony Tin Oxide Powder | |
Stock No | NS6130-05-505 | |
CAS | 128221-48-7 | Confirm |
Purity | 99% | Confirm |
APS | 40-50µm | Confirm |
Molecular Weight | 444.23 g/mol | Confirm |
Form | Powder | Confirm |
Color | White | Confirm |
Melting Point | 655 °C | Confirm |
Quality Control | Each Lot of Antimony Tin Oxide Powder was tested successfully | |
Main Inspect Verifier | Manager QC |
Typical Chemical Analysis
Assay | 99% |
Antimony tin oxide powder is utilized in LEDs, LCDs, other lights and display devices all can make use of this material in their construction. The conductive properties of antimony tin oxide at such small-sized become unique, making it usable in certain specialized conductive applications.
Antimony tin oxide powder: Like many oxides, this material has a role in energy storage for solar, as well as the fabrication of specialized electrodes. A coating of this material, or adding it to other coatings and materials, can greatly enhance wear and scratch resistance. When it is added to other materials or applied as a coating, antimony tin oxide can utilize as a transparent UV protection tool.
Antimony tin oxide powder: The magnetic properties of this material allow it to be employed in shielding against static discharge and general electromagnetism. This material resists much variety of organic and inorganic chemicals, making it an ideal additive for general corrosion-resistance when considering its other properties.
Antimony tin oxide powder is a semimetallic chemical element. It exists in two forms such as the metallic form is bright, silvery, hard and brittle; the non-metallic form is a grey powder. It is stable in dry air and it is a poor conductor of heat and electricity. Moreover, it is not attacked by dilute acids or alkalis. Antimony and its alloys inflate on cooling. Antimony is increasingly being employed in semiconductors as a dopant in n-type silicon wafers for infrared detectors, diodes, and hall-effect devices.
Tin (IV) oxide has long been employed as a white colorant in ceramic glazes. Tin (IV) oxide can be utilized as a polishing powder, sometimes in mixtures also with lead oxide, for polishing glass, jewelry, marble, and silver. For this use, it is sometimes called as "putty powder" or "jeweler’s putty. SnO2 is employed in sensors of combustible gases involving carbon monoxide detectors. In these, the sensor area is heated to a constant temperature (few hundred °C) and in the presence of a combustible gas the electrical resistivity drops.
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Antimony Tin Oxide Powder (ATO, APS: 40-50µm, Purity: 99%)