Thimerosal | Solubility of Things

Identification

Molecular formula

C₉H₉HgNO₂S

CAS number

54-64-8

IUPAC name

(2-methoxy-3-ureido-propyl)mercury(1+);chloride

State

Thimerosal is typically in a solid state at room temperature.

Melting point (Celsius)

232.00

Melting point (Kelvin)

505.15

Boiling point (Celsius)

110.00

Boiling point (Kelvin)

383.15

General information

Molecular weight

404.82g/mol

Molar mass

404.8180g/mol

Density

2.2300g/cm³

Appearence

Thimerosal appears as a white crystalline powder and is typically found in a solid state at room temperature. It does not have a distinct color or odor.

Comment on solubility

Solubility of (2-methoxy-3-ureido-propyl)mercury(1+);chloride

The solubility of (2-methoxy-3-ureido-propyl)mercury(1+);chloride (C₉H₉HgNO₂S) is an intriguing aspect of this compound, primarily due to the presence of mercury and its complex interactions in various solvents. Understanding its solubility can provide insights into its behavior in different environments.

Factors Influencing Solubility

The solubility of this compound can be influenced by:

Polarity of the Solvent: Polar solvents may facilitate better dissolution compared to non-polar solvents due to the polar nature of the urea functionality.
Temperature: As with many compounds, increasing temperature generally enhances solubility by providing more kinetic energy for dissolving interactions.
pH Levels: The function of urea may also be affected by the pH of the solution, impacting the ionization and thereby the solubility of the mercury compound.

General Solubility Insights

While precise solubility data for this specific compound may not be extensively documented, one can draw parallels from similar mercury-containing compounds. Often, organomercury compounds exhibit varying degrees of solubility in:

Aqueous Solutions: Generally, organomercury compounds have limited solubility, depending on the presence of complexing agents.
Organic Solvents: Many organomercury compounds may show increased solubility in organic solvents, making them more amenable to extraction and purification techniques.

In conclusion, while the solubility of (2-methoxy-3-ureido-propyl)mercury(1+);chloride is influenced by various factors, a thorough experimental investigation is essential to accurately determine its behavior in different solvents.

Interesting facts

Interesting Facts about (2-methoxy-3-ureido-propyl)mercury(1+);chloride

The compound (2-methoxy-3-ureido-propyl)mercury(1+);chloride, also known as a mercury-based organometallic compound, is a fascinating subject of study in the field of chemistry. Here are some intriguing points regarding this compound:

Unique Structure: The presence of the mercury atom bonded with an organic moiety through various substituents gives this compound a special structural significance. The integration of methoxy and ureido groups highlights its potential for biological interactions.
Applications: Organomercury compounds have been used in various applications, predominantly in agricultural and medicinal settings. They are often investigated for their potential as antimicrobial agents and their role in complex biochemical pathways.
Toxicity Considerations: Mercury compounds are well-known for their toxicity. Understanding compounds like this one is crucial in evaluating their environmental impact and developing safe handling procedures. Knowledge about their behavior in biological systems helps mitigate risks associated with mercury exposure.
Synthesis Insights: The synthesis of organomercury compounds generally requires careful manipulation of reagents and conditions to ensure yield and stability. Chemists often explore various synthetic pathways to optimize these properties.
Research Potential: Ongoing research surrounding the unique chemical properties of mercury complexes could lead to breakthroughs in fields such as catalysis, material science, and pharmaceutical development. The study of this compound can provide insights into the reactivity and stability of mercury-organic frameworks.

As we delve deeper into the chemistry of compounds like (2-methoxy-3-ureido-propyl)mercury(1+);chloride, we are reminded of the balance between innovation and safety in chemical research. This compound exemplifies the intriguing and complex relationship between structure, function, and toxicity in modern chemistry.