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| Typical Properties | |
| CAS | 1303-86-2 |
| Catalog | ACM1303862-8 |
| Molecular Weight | 69.62 g/mol |
| Boiling Point | 1860 °C |
| Melting Point | 450 °C(lit.) |
| Flash Point | 1860 °C |
| Purity | 99.9 % |
| Density | 2.46 g/mL at 25°C (lit.) |
| Appearance | Liquid (Suspension) |
| Storage | 2-8 °C |
| Composition | B2O3 |
| Concentration | 2 % in NMP/Water |
| Diameter | 80-100 nm |
| Precautions for use | According to different application fields, add the appropriate dosage. It is recommended to do a sample test before use. |
| Shipping | Ventilation, low temperature and dry |
| Solvent | NMP\Water |
| Stability | Long-term placement still remains monodisperse nanoparticles. It can be diluted many times and still maintain monodisperse stability. |
| Overview |
| Description |
Boron trioxide, also known as "boric anhydride", is soluble in hot water and only slightly heated in cold water. Forms orthoboric acid in water. Volatile metaboric acid is formed in hot water vapor. In the molten state, various metal oxides can be dissolved to obtain colored boron glass. Alkali metals, magnesium and aluminum can reduce it to elemental boron. To obtain high-purity boron oxide, high-purity boric acid must be prepared first. The preparation methods of high-purity boric acid mainly include recrystallization method, ion exchange method, complex method, esterification-hydrolysis method, membrane separation method, electrochemical method, adsorption method law, etc. |
| Features |
·Uniform particle size |
| Application |
·Flux for silicate decomposition |
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