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Sodium stannate

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Identification
Molecular formula
Na2SnO3
CAS number
12058-66-1
IUPAC name
disodium;dioxido(oxo)tin
State
State

At room temperature, sodium stannate is in the form of a white solid.

Melting point (Celsius)
1 400.00
Melting point (Kelvin)
1 673.00
Boiling point (Celsius)
2 065.00
Boiling point (Kelvin)
2 338.00
General information
Molecular weight
266.73g/mol
Molar mass
266.7300g/mol
Density
4.6800g/cm3
Appearence

Sodium stannate typically appears as a white solid powder or crystalline substance.

Comment on solubility

Solubility of Disodium Dioxido(oxo)tin

Disodium dioxido(oxo)tin, with the chemical formula Na2SnO2, exhibits interesting solubility characteristics that are important for its applications in various fields. Understanding its solubility behavior can help in the formulation and utilization of this compound effectively.

Solubility in Water

This compound is known to be:

  • Soluble in water, allowing for easy incorporation into aqueous solutions.
  • Highly soluble in polar solvents, which can be beneficial for reactions that require liquid-phase processes.

Factors Influencing Solubility

The solubility of disodium dioxido(oxo)tin can be influenced by various factors:

  • Temperature: Increased temperatures often enhance solubility.
  • pH Levels: Variations in pH can affect the ionic state and therefore the solubility.
  • Ionic Strength: The presence of other ions in solution may either promote or inhibit solubility.

Miscellaneous Information

It's crucial to note that dissociation of the compound in solution can lead to:

  • The release of Na+ ions and SnO22- ions.
  • This contributes to the overall conductivity of the solution, highlighting its potential utility in electronic applications.

In conclusion, the solubility of disodium dioxido(oxo)tin is key for its practical applications, particularly in fields like materials science and analytical chemistry. Understanding its solubility behavior enables scientists and engineers to design effective processes utilizing this compound.

Interesting facts

Interesting Facts about Disodium Dioxido(oxo)tin

Disodium dioxido(oxo)tin is a fascinating compound that showcases the interplay between tin and its various oxidation states. Here are some intriguing insights about this compound:

  • Application in Electronics: This compound is often utilized in the production of electronic materials, particularly as a precursor in the manufacturing of tin oxide films, which are essential in modern display technologies.
  • Role in Catalysis: Disodium dioxido(oxo)tin can act as a catalyst in various chemical reactions, promoting greater efficiency in processes like polymerization.
  • Biocompatibility: Studies suggest that tin-based compounds, including this one, have potential applications in biomedicine due to their biocompatible properties, which may lead to advances in drug delivery systems.
  • Environmental Impact: Tin compounds have been evaluated for their impact on the environment, with efforts aimed at understanding their toxicity and promoting safer alternatives.
  • Historical Significance: The study of tin compounds dates back centuries, linking modern chemistry with historical practices in metallurgy. Tin's use in alloys has paved the way for various advancements in both chemistry and materials science.

Ultimately, disodium dioxido(oxo)tin serves as an example of how fundamental chemistry can lead to cutting-edge applications in technology and medicine, bridging the gap between academic research and practical innovation.

Synonyms
Disodium tin trioxide
JC8111ZN4W
Stannate (SnO32-), sodium (1:2)
SODIUM STANNATE ANHYDROUS
SODIUM STANNATE (NA2SNO3)
TIN SODIUM OXIDE (NA2SNO3)
DISODIUM STANNATE (NA2SNO3)
SODIUM STANNATE(IV) (NA2SNO3)
Sodium stannate
12058-66-1
Sodium tin oxide
Tin sodium oxide
disodium;dioxido(oxo)tin
DISODIUM STANNATE
disodium dioxido(oxo)tin
UNII-JC8111ZN4W
Natriumstannat
Sodiumstannate
SCHEMBL33863
SODIUM STANNATE (IV)
MFCD00014241
AKOS015911400
AKOS015912534
Sodium stannate, 42-45% SnO2 basis
SY100969
A804542
Q27281432