1-bromovinyl(trimethyl)ammonium | Solubility of Things

Identification

Molecular formula

C₇H₁₆BrN

CAS number

not available

IUPAC name

1-bromovinyl(trimethyl)ammonium

State

At room temperature, 1-bromovinyl(trimethyl)ammonium is likely to be a liquid or low melting point solid, depending on its formulation and environmental conditions.

Melting point (Celsius)

-10.00

Melting point (Kelvin)

263.15

Boiling point (Celsius)

85.00

Boiling point (Kelvin)

358.15

General information

Molecular weight

167.07g/mol

Molar mass

167.0700g/mol

Density

1.2000g/cm³

Appearence

1-Bromovinyl(trimethyl)ammonium is generally not characterized deeply in terms of appearance due to its usage mainly in scientific research as an intermediate. Typically, such compounds might appear as a colorless to light yellow liquid or solid, but this can vary with the purity and formulation.

Comment on solubility

Solubility of 1-Bromovinyl(trimethyl)ammonium

1-Bromovinyl(trimethyl)ammonium, a quaternary ammonium compound, exhibits specific solubility characteristics that can be influenced by various factors. Generally, quaternary ammonium compounds are known for their favorable solubility in polar solvents, particularly water. However, the presence of the bromovinyl group introduces unique attributes to its solubility.

Key solubility aspects:

Polar solvents: 1-bromovinyl(trimethyl)ammonium is likely to be soluble in water and alcohols due to its ionic nature and the presence of polar functional groups.
Non-polar solvents: Conversely, its solubility in non-polar solvents, such as hydrocarbons, is expected to be low due to the prevalence of polar characteristics that do not favor interaction with non-polar environments.
Temperature dependence: Solubility may also vary with temperature; generally, increased temperature can enhance the solubility of ionic compounds.
Concentration effects: In concentrated solutions, there may be challenges related to ionic interactions that could either hinder or promote solubility based on the solution's ionic strength.

In summary, while 1-bromovinyl(trimethyl)ammonium is anticipated to be soluble in polar solvents, its behavior can be significantly influenced by external conditions such as temperature and the surrounding solvent environment. As highlighted, the efficacy of 1-bromovinyl(trimethyl)ammonium as a soluble compound is closely linked to its ionic nature and the effects of its unique structural attributes.

Interesting facts

Interesting Facts about 1-Bromovinyl(trimethyl)ammonium

1-Bromovinyl(trimethyl)ammonium is an intriguing compound that garners interest in both academic and industrial chemistry. Here are some captivating insights about this compound:

Quaternary Ammonium Compound: This compound belongs to the family of quaternary ammonium compounds. These are known for their cationic properties, which can be leveraged in various applications such as surfactants, disinfectants, and even in phase transfer catalysis.
Applications in Organic Synthesis: The unique structure of 1-bromovinyl(trimethyl)ammonium lends itself to use in various organic synthesis reactions. It can serve as a useful intermediate in the synthesis of more complex organic molecules.
Polymer Chemistry: This compound is significant in polymer chemistry. Its reactivity allows it to participate in radical polymerization processes, which can be essential for producing novel materials with desired properties.
Biological Importance: Research has shown that quaternary ammonium compounds can exhibit antimicrobial properties. This opens avenues for exploring 1-bromovinyl(trimethyl)ammonium as a potential candidate for use in biocides or antimicrobial agents.
Versatile Chemistry: The presence of both a bromovinyl group and trimethylammonium makes this compound a versatile building block in synthetic chemistry. Its dual functionality provides numerous routes for chemists to explore new reactions and compounds.

In conclusion, 1-bromovinyl(trimethyl)ammonium is more than just a chemical entity; it is a gateway to innovative research and applications in various fields. As the study of this compound evolves, we may find even more uses and implications in cutting-edge scientific advances.