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Tin(II) oxalate

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Identification
Molecular formula
SnC2O4
CAS number
814-95-9
IUPAC name
stannous;oxalate
State
State

At room temperature, Tin(II) oxalate is typically found in a solid state. It exhibits a stable crystalline structure under normal conditions.

Melting point (Celsius)
200.00
Melting point (Kelvin)
473.00
Boiling point (Celsius)
350.00
Boiling point (Kelvin)
623.00
General information
Molecular weight
206.68g/mol
Molar mass
206.6810g/mol
Density
3.0800g/cm3
Appearence

Tin(II) oxalate appears as a white crystalline powder. It is generally known for its opaque appearance and its solid form at standard temperature and pressure.

Comment on solubility

Solubility of Stannous Oxalate

Stannous oxalate, with the chemical formula SnC2O4, exhibits interesting solubility characteristics that are worth exploring:

  • Water Solubility: Stannous oxalate is generally recognized as insoluble in water. This can be attributed to the ionic nature of the compound, which does not favor dissolution in polar solvents like water.
  • Solvents: While water does not promote solubility, stannous oxalate may show some degree of solubility in specific organic solvents. This indicates that its solubility can be highly dependent on the solvent system.
  • Temperature Effects: The solubility of many salts is influenced by temperature. However, the precise temperature dependence of stannous oxalate's solubility is less documented, inviting further investigation.
  • Precipitation Reaction: In various chemical reactions, stannous oxalate can precipitate, indicating its low solubility under certain conditions, which could be useful in analytical chemistry for separating species.

To summarize, stannous oxalate's solubility is quite limited in typical aqueous solutions but could vary in different environments or with the application of specific conditions. As stated, "Insoluble salts may not disappear, but they can reveal much about their chemical behavior." Therefore, understanding the solubility profile of stannous oxalate is crucial in numerous applications.

Interesting facts

Interesting Facts about Stannous Oxalate

Stannous oxalate, commonly known as tin(II) oxalate, is an intriguing compound with a variety of applications in both industry and research. Here are some fascinating aspects of this compound:

  • Composition: Stannous oxalate consists of stannous ions, denoted as Sn2+, combined with oxalate ions, C2O42−. This simple yet versatile structure contributes to its utility in different chemical contexts.
  • Applications: The compound is employed in several applications:
    • As a reagent in chemical synthesis and various analytical methods.
    • In the field of materials science, particularly in the creation of coatings and advanced materials.
  • Biological Importance: Stannous oxalate has garnered interest due to its potential biological effects. Tin is known for its role in several biochemical pathways, making this compound an intriguing focus for those studying its interactions in living systems.
  • Stability and Reactivity: Stannous oxalate exhibits interesting chemical behaviors, particularly in redox reactions. The presence of tin in its +2 oxidation state allows for unique reactivity, which can be applied in various synthesis pathways.
  • Synthesis Methods: This compound can be synthesized through various methods, such as:
    • Reacting tin(II) salts with oxalic acid.
    • Precipitation from solutions containing stannous ions and oxalate ions.

In summary, stannous oxalate is not only a compound of academic interest due to its unique properties but also holds practical significance in different scientific fields. Its versatility and potential applications make it an exciting subject for both students and researchers alike!

Synonyms
STANNOUS OXALATE
Tin(II) oxalate
814-94-8
Tin(2+) oxalate
Tin oxalate
Stavelan cinaty
Ethanedioic acid, tin(2+) salt (1:1)
Stavelan cinaty [Czech]
UNII-SAR72FE8EH
SAR72FE8EH
EINECS 212-414-0
Oxalic acid, tin(2+) salt (1:1)
STANNOUS OXALATE [MI]
DTXSID1061152
EC 212-414-0
ETHANEDIOIC ACID TIN(2+) SALT (1:1)
Oxalic acid, tin(II) salt
DTXCID4048220
Oxalic acid, tin(2+) salt (1:1) (8CI)
tin(ii)oxalate
oxalate;tin(2+)
Tin II oxalate
C2O4Sn
Oxalic acid tin(II) salt
SCHEMBL28424
SCHEMBL28425
?(2)-tin(2+) oxalate ion
FT28283
DB-056533
Ethanedioic acid tin(2+) salt;Oxalic acid tin(2+) salt;Tin oxalate (snC2O4)