Product | Zirconia Nanopowder | |
Stock No | NS6130-03-368 | |
CAS | 1314-23-4 | Confirm |
Purity | 99.9% | Confirm |
APS | 40nm | Confirm |
Molecular Formula | ZrO2 | Confirm |
Molecular Weight | 123.218 g/mol | Confirm |
Form | Powder | Confirm |
Color | White | Confirm |
Density | 5.68 g/cm³ | Confirm |
Melting Point | 2715 °C | Confirm |
Boiling Point | 4300 °C | Confirm |
Solubility | Insoluble in water | |
Quality Control | Each Lot of Zirconia Nanopowder was tested successfully | |
Main Inspect Verifier | Manager QC |
Typical Chemical Analysis
Assay | 99.9% |
Other Metal | 800ppm |
Zirconia nanopowder (zirconia) is a material of excellent technological significance and it is a white crystalline oxide of zirconium. It has various properties such as fine natural color, high stability, high toughness, high chemical strength, desirable corrosion, chemical, and microbial resistance. ZrO2 manifests plenty of oxygen vacancies on its surface with a wideband gap and it is called as P-type semiconductor.
Zirconium dioxide is the most important zirconium compound which due to its properties is used in various products. In nature, Zirconia nanopowder occurs in the mineral form as baddeleyite, a modification in monoclinic crystal lattices (which is often found as weathered grit in gravel). Zirconium dioxide is non-magnetic and highly resistant against acids, alkaline lyes, and exogenous (chemical, thermal, and mechanical) influences.
To synthesize ultrafine ceramic powders, various approaches have been followed such as sol-gel, hydrothermal, spray pyrolysis, salt-assisted aerosol decompositions, carbon nanotube template technique and reflux, and emulsion precipitation. Zirconia nanopowder utilized in the production of certain forms of artificial jewelry. The material has optical properties so it is also used more broadly in stereo television glasses, light control devices, and other light-sensitive devices. It is used in many different electronic devices, for instance, in high-capacity capacitors, electrodes, piezoelectric elements, ion exchangers, solid dielectrics, and more.
Zirconia nanopowder ceramic was widely used in orthopedic applications in the last few years until manufacturing difficulties at the world’s largest supplier resulted in its abrupt decline. Zirconia was initially chosen for commercialization due largely to its higher strength relative to alumina. However, zirconia is a considerably more complex material than alumina.
Due to the high ion exchangeability and redox movement make it useful in many catalytic processes as a catalyst. For the future nanoelectronics devices, Zirconia nanopowder has been examined for potential use as an insulator in transistors, which is an important dielectric material and polymorphic compound. The crystal morphology of zirconia is monoclinic, tetragonal, and cubic.
Zirconia nanopowder (zirconia) is a material of excellent technological significance and it is a white crystalline oxide of zirconium. It has various properties such as fine natural color, high stability, high toughness, high chemical strength, desirable corrosion, chemical, and microbial resistance. ZrO2 manifests plenty of oxygen vacancies on its surface with a wideband gap and it is called as P-type semiconductor.
Due to the high ion exchangeability and redox movement make it useful in many catalytic processes as a catalyst. For the future nanoelectronics devices, Zirconia nanopowder has been examined for potential use as an insulator in transistors, which is an important dielectric material and polymorphic compound. The crystal morphology of zirconia is monoclinic, tetragonal, and cubic.
To synthesize ultrafine ceramic powders, various approaches have been followed such as sol-gel, hydrothermal, spray pyrolysis, salt-assisted aerosol decompositions, carbon nanotube template technique and reflux, and emulsion precipitation. Zirconia nanopowder utilized in the production of certain forms of artificial jewelry. The material has optical properties so it is also used more broadly in stereo television glasses, light control devices, and other light-sensitive devices. It is used in many different electronic devices, for instance, in high-capacity capacitors, electrodes, piezoelectric elements, ion exchangers, solid dielectrics, and more.
Zirconia nanopowder ceramic was widely used in orthopedic applications in the last few years until manufacturing difficulties at the world’s largest supplier resulted in its abrupt decline. Zirconia was initially chosen for commercialization due largely to its higher strength relative to alumina. However, zirconia is a considerably more complex material than alumina.
Zirconium dioxide is the most important zirconium compound which due to its properties is used in various products. In nature, Zirconia nanopowder occurs in the mineral form as baddeleyite, a modification in monoclinic crystal lattices (which is often found as weathered grit in gravel). Zirconium dioxide is non-magnetic and highly resistant against acids, alkaline lyes, and exogenous (chemical, thermal, and mechanical) influences.
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Zirconia Nanopowder (ZrO2, Purity: 99.9%, APS: 40nm)