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Thioxobismuthine

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Identification
Molecular formula
Bi2S3
CAS number
12296-92-5
IUPAC name
thioxobismuthane
State
State
At room temperature, thioxobismuthine exists as a solid. It is usually handled as a powder or crystalline substance.
Melting point (Celsius)
275.00
Melting point (Kelvin)
548.15
Boiling point (Celsius)
380.00
Boiling point (Kelvin)
653.15
General information
Molecular weight
514.15g/mol
Molar mass
257.0500g/mol
Density
9.7800g/cm3
Appearence
Thioxobismuthine is typically a white to off-white crystalline solid. It lacks the shiny metallic appearance of some bismuth compounds, owing to its unique structure and composition.
Comment on solubility

Solubility of Thioxobismuthane

Thioxobismuthane, with the chemical formula Bi3+S2-, presents a rather intriguing profile in terms of solubility. In general, thioxobismuthane is known to be:

  • Poorly soluble in water, which limits its application in aqueous environments.
  • More soluble in polar organic solvents, showcasing a greater interaction with such mediums.
  • Less soluble in acidic conditions, as the presence of protons may affect its ionization and solubility.

Researchers have observed that the solubility can significantly vary depending on several factors:

  1. Temperature: Increased temperature often enhances solubility.
  2. Solution pH: The pH of the solution can facilitate or hinder the dissolving process.
  3. Presence of complexing agents: Some agents can improve the overall solubility outcome.

In summary, the solubility of thioxobismuthane is influenced by its chemical environment and the physical state of the solvent. This behavior emphasizes that understanding the solubility characteristics of chemical compounds is essential for their potential uses in various industrial and laboratory settings. As stated in research, "Knowing how a compound interacts with solvents can unlock its potential applications."

Interesting facts

Interesting Facts about Thioxobismuthane

Thioxobismuthane is a fascinating chemical compound with notable potential in various scientific fields. Here are some interesting insights:

  • Unique Composition: Thioxobismuthane contains sulfur, which gives rise to its unique properties and potential applications in semiconductor technology.
  • Versatile Applications: This compound may exhibit a variety of uses, particularly in the development of materials for electronic applications, magnetic materials, and catalysts.
  • Research Opportunities: The intriguing nature of thioxobismuthane presents numerous opportunities for research, especially concerning its electronic properties and reactivity.
  • Environmental Properties: As an organometallic compound, its production and degradation pathways can lead to eco-friendly practices in chemical synthesis.
  • Emerging Interest: The study of thioxobismuthane is gaining traction among chemists due to its potential to introduce novel solutions to contemporary challenges in materials science.

Overall, thioxobismuthane embodies a compelling intersection of chemistry and technology, presenting exciting avenues for exploration by scientists and researchers alike. The ongoing study of its properties may ultimately contribute to innovative advancements in a variety of technical domains.