99.9% Nano SnO2 Tin Dioxide powder (tin oxide nanopowder) CAS 18282-10-5 Stannic Oxide
Nano Tin Dioxide (tin oxide)
Molecular formula: SnO2
Molecular weight: 150.69
white powder, Melting point 1630°C.
Ceramic industry as a opacifier of pigment and glaze, used in grinding media, glass coating, electrode materials, resistors, special lamps, antifreeze heat-insulating glass, organic catalysts, analytical reagents, electronic and electrical industries. Can also be used as the material of sensor, ITO, ATO.
Standard quality of product | ||||||
Standard name | SnO2 | SO42- | Fe | Pb | Sb | Average granularity |
Submicron grade | 99.5 - 99.99 | ≤0.01 | ≤0.03 | ≤0.002 | ≤0.003 | ≤1micron |
Nano grade | 99.5 - 99.99 | ≤0.01 | ≤0.003 | ≤0.002 | ≤0.003 | ≤100 nanometers |
1. |
Nano ZnO 30nm 99.9% |
2. |
Nano TiO2 rutile 35nm 99.9% |
3. |
Nano TiO2 anatase 10nm 99.9% |
4. |
Nano Al(OH)3 30nm 99.9% |
5. |
Nano ZrO2 10nm 99.9% |
6. |
Nano Ni(OH)2 20nm 99.9% |
7. |
Magnesium Oxide Nanopowder (MgO) |
8. |
Nano Fe3O4 50nm 99.5% |
9. |
Nano Ti(OH)4 20nm 99.9% |
10. |
Nano AZO 20nm 99.9% |
11. |
Nano In(OH)3 20nm 99.9% |
12. |
Nano SiO2 30nm 99.9% |
13. |
Nano Mg(OH)2 40nm 99.9% |
14. |
Nano HfO2 100nm 99.9% |
15. |
Nano WO3 50nm 99.9% |
16. |
Nano α-Fe2O3 30nm 99.5% |
17. |
Nano γ-Fe2O3 20nm 99.5% |
19. |
Nano MnO2 50nm 99.5% |
20. |
Nano SnO2 50nm 99.9% |
21. |
Nano Mg(OH)2 50nm 99.9% |
22. |
Nano CuO 40nm 99.9% |
23. |
Antimony Tin Oxide Nanoparticles (ATO) |
24. |
Indium Tin Oxide Nanopowder |
25. |
Nickel Oxide Nanoparticles (NiO) |
26. |
Nano Y2O3 30nm 99.9% |
27. |
Nano CeO2 20nm 99.99% |
28. |
Nano La2O3 40nm 99.9% |
29. |
Nano Co3O4 30nm 99.9% |
30. |
Nano MoO3 50nm 99.5% |
31. |
Nano Nd2O3 40nm 99.9% |
32. |
Nano Gd2O3 40nm 99.9% |
33. |
Nano Sm2O3 40nm 99.9% |
34. |
Nano Bi2O3 80nm 99.9% |
35. |
Nano Er2O3 30nm 99.9% |
36. |
Nano Pr6O11 50nm 99.9% |
37. |
Zinc Oxide Nanoparticles Doped with 2wt% Aluminum Oxide (AZO) |
38. |
Nano Dy2O3 30nm 99.9% |
39. |
Nano In2O3 30nm 99.9% |
40. |
www.theoremchem.com |