Potassium Titanate Nanopowder (K2O・8TiO2, Purity: 99.99%, APS: 100nm)
Potassium Titanate Nanopowder | |
Product No | NRE-5185 |
CAS No. | 12030-97-6 |
Formula | K2O 8TiO2 |
APS | <100nm (Can be Customized) |
Purity | 99.9% |
Color | Off-White |
Molecular Weight | 174.06 g/mol |
Density | 3.1 g/cm3 |
Melting Point | 1,300~1,350 °C |
Boiling Point | NA |
Potassium Titanate Nanopowder
Potassium titanate (K₂TiO₃) is an inorganic compound that consists of potassium (K) and titanium (Ti) in the form of a titanate, a compound containing titanium and oxygen. When reduced to nanopowder form, potassium titanate exhibits unique properties that make it highly valuable for a variety of applications, particularly in materials science, catalysis, and environmental remediation.
Electronics and Energy Storage
Capacitors and Dielectric Materials: Potassium titanate nanoparticles are utilized in the production of capacitors and other electronic components due to their excellent dielectric properties. These nanoparticles can be used to improve energy storage capacity and performance in electronic devices.
Supercapacitors: Potassium titanate nanoparticles, when combined with other materials, can be used in supercapacitors, which are devices that store electrical energy. These supercapacitors can offer high power density and fast charge/discharge cycles.
Lithium-ion Batteries: Potassium titanate nanoparticles have also been researched for use in lithium-ion batteries as an anode material. They can enhance the battery’s performance, including improving its capacity and lifespan.
Catalysis
Catalytic Supports: Potassium titanate nanoparticles are widely used as supports for catalysts in various industrial processes. Their high surface area and stability make them ideal for catalytic reactions in the production of chemicals, fuels, and polymers.
Photocatalysis: Potassium titanate is also being investigated for its photocatalytic properties, especially in energy applications such as hydrogen production via water splitting. The nanoparticles can enhance the efficiency of photocatalytic reactions by increasing the surface area available for reactions.
Environmental Remediation
Water Purification: Potassium titanate nanopowder is being explored for use in environmental remediation, particularly in water treatment. Due to its high surface area and ion-exchange properties, it can adsorb contaminants such as heavy metals, organic compounds, and fluoride ions from water.
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