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Thallium Sulfate Nanoparticles

Thallium Sulfate Nanoparticles
Product No NRE-5224
CAS No. 7446-18-6
Formula   Tl2SO4
APS <100nm  (Can be Customized)
Purity 99.9%
Color White
Molecular Weight 504.83g/mol
Density 6.77g/cm3
Melting Point 632°C
Boiling Point NA

Thallium Sulfate Nanoparticles

Introduction

Thallium Sulfate nanoparticles is an inorganic compound formed from thallium (Tl) and sulfate ions (SO₄²⁻). Thallium sulfate is a white crystalline solid that is highly soluble in water and has several notable applications in both industrial and research settings. When reduced to the nanoparticle scale, thallium sulfate exhibits enhanced chemical reactivity, a high surface area, and other unique properties, making it an attractive material for a range of advanced applications in areas such as catalysis, sensor technology, energy storage, and photonics.

Applications

Catalysis:

Catalytic Reactions: Thallium sulfate nanoparticles are being explored for their use in catalytic processes. Their high surface area and reactivity make them effective in various oxidation-reduction reactions, such as nitrate reduction and sulfur oxidation, which are crucial in industrial processes like petrochemical refining and environmental remediation.

Environmental Catalysis: could be utilized in environmental catalysis, helping to degrade pollutants or convert harmful emissions into less toxic compounds. Their ability to facilitate complex chemical reactions is valuable for improving air quality and reducing environmental contaminants.

Sensor Technology:

Chemical Sensors: Due to their reactivity and surface properties,  Tl2SO4 can be used in chemical sensors for detecting specific gases, pollutants, or toxic substances. These sensors can be deployed in industrial monitoring systems or for environmental protection purposes.

Biosensors: Thallium sulfate nanoparticles may also be explored for use in biosensors to detect biological markers, pathogens, or disease indicators. Their unique surface properties enable them to interact with specific molecules, making them suitable for diagnostic applications.

 

 

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