Skip to main content

Thallium(I) ethoxide

ADVERTISEMENT
Identification
Molecular formula
C2H5OTl
CAS number
23615-17-6
IUPAC name
ethanolate;thallium(1+)
State
State

At room temperature, thallium(I) ethoxide is typically a solid.

Melting point (Celsius)
218.00
Melting point (Kelvin)
491.15
Boiling point (Celsius)
119.10
Boiling point (Kelvin)
392.20
General information
Molecular weight
284.46g/mol
Molar mass
284.4570g/mol
Density
4.5300g/cm3
Appearence

Thallium(I) ethoxide typically appears as a white or slightly yellowish powder.

Comment on solubility

Solubility of Thallium(1+) Ethanolate

Thallium(1+) ethanolate, known for its complex behavior in solution, presents some intriguing characteristics regarding its solubility.

This compound typically showcases the following solubility traits:

  • Solvent Compatibility: It is often more soluble in polar solvents, particularly alcohols, due to the nature of the ethanolate group.
  • pH Dependence: The solubility can be influenced by the pH of the environment, as ethanolate may interact with acidic or basic species.
  • Temperature Effects: Increased temperature generally enhances the solubility of many salts, including thallium(1+) ethanolate.

Furthermore, it’s essential to remember that thallium salts, including this ethanolate, are often mildly soluble in water but may precipitate under certain conditions. Therefore, precise conditions must be maintained to achieve desired concentrations in aqueous solution.

In conclusion, while thallium(1+) ethanolate does exhibit solubility, it is crucial to consider various factors such as solvent choice, pH, and temperature to fully understand its behavior in solution.

Interesting facts

Interesting Facts About Ethanolate; Thallium(1+)

Ethanolate; thallium(1+) is a fascinating compound that showcases the intriguing properties and behaviors of both ethanol and thallium ions. Here are some interesting aspects to consider:

  • Ethanolate Formation: Ethanolates are formed when an alcohol, like ethanol, reacts with a strong base. This process results in the deprotonation of the alcohol, leading to the formation of an alkoxide ion.
  • Thallium's Unusual Chemistry: Thallium is a post-transition metal that has garnered attention due to its unique oxidation states, particularly thallium(I). This ion exemplifies a rare case of a heavy metal that can mimic the behavior of alkali metals in some reactions.
  • Electrophilic Character: The thallium(1+) ion tends to exhibit a strong electrophilic character, allowing it to engage in various chemical reactions. This makes it a subject of study in coordination chemistry where it can form complexes with various ligands.
  • Potential Uses: Compounds containing thallium have been investigated for their potential applications in materials science and electronics. Understanding their chemistry can lead to advancements in these fields.
  • Health Considerations: It is important to note that while thallium compounds are interesting scientifically, they can be highly toxic. This emphasizes the need for careful handling and study of such compounds.
  • Research Applications: The study of ethanolate; thallium(1+) can provide insights into reaction mechanisms and the behavior of heavy metal ions in organic synthesis.

In conclusion, ethanolate; thallium(1+) represents a bridge between organic and inorganic chemistry, highlighting the beauty and complexity of chemical interactions. As researchers continue to explore this compound, we can expect to uncover more about its unique properties and potential applications.

Synonyms
Thallous ethoxide
ETHANOL, THALLIUM(1+) SALT
Ethyl alcohol, thallium (I)
thallium ethoxide
DTXSID60890787
DTXCID201031159
RefChem:897598
20398-06-5
Thallium (I) ethanolate
Ethanol, thallium(1+) salt (1:1)
ethanolate;thallium(1+)
EINECS 243-786-2
C2H5OTl
SCHEMBL690956
DB-045200