Manganese Boride Nanoparticles
Manganese Boride Nanoparticles
| Manganese Boride Nanoparticles | |
| Product No | NRE-5149 |
| CAS No. | 12045-15-7 |
| Formula | MnB |
| Density | 2.57 g/cm3 |
| APS | <100 nm (Can be Customized) |
| Purity | 99.9% |
| Form | Powder |
| Molecular Weight | 65.749 g/mol |
| Certificate Of Analysis | |
| Mn | 83.5% |
| B | 16.4% |
| C | 0.02% |
| Co | 0.03% |
| V | 0.02% |
| Ti | 0.01% |
| W | 0.01% |
Manganese Boride Nanoparticles
Applications
Manganese boride nanoparticles have a range of applications across various fields, thanks to their unique combination of mechanical, thermal, and chemical properties. Some of the key areas of application include:
Catalysis and Chemical Reactions:
Hydrogenation Reactions: Manganese boride nanoparticles are studied for their potential as catalysts in hydrogenation reactions, which are widely used in the chemical and petrochemical industries. Their high surface area and catalytic properties make them effective in facilitating the addition of hydrogen to unsaturated compounds, such as in the production of synthetic fuels or the processing of petrochemicals.
Catalysts in Fuel Cells: MnB nanoparticles have also been explored for use as catalysts in fuel cells, especially in hydrogen fuel cells. They can assist in the efficient conversion of hydrogen into electricity, contributing to the development of cleaner, more efficient energy systems.
CO2 Reduction: Due to their high surface area and catalytic activity, manganese boride nanoparticles are being studied for use in carbon dioxide (CO₂) reduction reactions. This could help in developing technologies for converting CO₂ into useful chemicals, contributing to efforts to mitigate climate change by reducing greenhouse gas emissions.
Energy Storage and Conversion:
Batteries: Manganese boride nanoparticles can be used as electrode materials in batteries, particularly in lithium-ion and sodium-ion batteries. Their high conductivity and electrochemical stability make them attractive candidates for improving the performance of energy storage devices, increasing their charge/discharge cycles and overall energy efficiency.
Supercapacitors: Due to their high surface area and excellent electrical conductivity, MnB nanoparticles can also be used in the development of supercapacitors. These energy storage devices, known for their fast charge/discharge capabilities, can benefit from manganese boride’s ability to conduct electricity efficiently, leading to enhanced performance in applications requiring rapid energy release.
Magnetic Materials:
Permanent Magnets: Manganese boride nanoparticles have demonstrated potential for use in the development of permanent magnets due to their magnetic properties. The nanoparticles can be used in the manufacture of magnetic materials for various applications, including electric motors, magnetic storage devices, and sensors.
Magnetic Data Storage: The magnetic properties of MnB nanoparticles can also be exploited in magnetic data storage systems, where their ability to maintain stable magnetic states can be used to store information in high-density formats.
