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Potassium Sulfate Nanopowder (K2SO4, Purity: 99.9%, APS: 80-100nm)

Potassium Sulfate Nanopowder
Product No NRE-5183
CAS No. 7778-80-5
Formula K2SO4
APS <100nm  (Can be Customized)
Purity 99.9%
Color White
Molecular Weight 174.25g/mol
Density 2.66 g/cm³
Melting Point 1069 °C
Boiling Point 1689 °C

Potassium Sulfate Nanopowder

Application:
Agriculture

Fertilizer: The primary application of potassium sulfate is as a fertilizer in agriculture. The nanopowder form enhances the bioavailability and solubility of potassium and sulfur, two essential nutrients for plant growth. It is particularly useful for crops that are sensitive to chloride, such as fruits and vegetables, as potassium sulfate is chloride-free.

Improved Nutrient Uptake: The increased surface area of potassium sulfate nanopowder allows for more efficient absorption by plants, leading to better growth and higher yields.

Catalysis and Chemical Synthesis

Catalytic Reactions: Potassium sulfate nanopowder can act as a catalyst or catalyst support in various chemical reactions. Due to its high surface area, it enhances the reactivity and efficiency of catalytic processes, including those involved in the production of chemicals and fuels.

Synthesis of Chemicals: KF nanopowder can also be used as a key reagent in the synthesis of organic and inorganic compounds, such as sulfur-containing chemicals and fertilizers.

Environmental Remediation

Water Treatment: Potassium sulfate nanoparticles have potential in water treatment applications, especially in removing heavy metals and other contaminants. The nanoparticles can adsorb toxic ions from water, improving the water quality.

Fluoride Removal: Potassium sulfate nanoparticles can be utilized to remove fluoride ions from drinking water, addressing concerns related to high fluoride levels in certain regions.

Energy Storage

Supercapacitors: The unique properties of potassium sulfate nanopowder make it a candidate for use in energy storage devices such as supercapacitors. Potassium sulfate-based materials can be used as electrolytes or electrode materials, offering high energy density and stability.

Batteries: Potassium sulfate nanoparticles may also be explored as components in rechargeable batteries, contributing to the overall energy efficiency and performance of battery systems.

 

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