Propantheline bromide | Solubility of Things

Identification

Molecular formula

C₂₃H₃₀BrNO₃

CAS number

50-34-0

IUPAC name

trimethyl-[2-[4-[1-methyl-2-(trimethylammonio)ethyl]phenyl]propyl]ammonium

State

At room temperature, Propantheline bromide is in a solid state.

Melting point (Celsius)

218.00

Melting point (Kelvin)

491.00

Boiling point (Celsius)

0.00

Boiling point (Kelvin)

0.00

General information

Molecular weight

368.37g/mol

Molar mass

368.3740g/mol

Density

1.1000g/cm³

Appearence

Propantheline bromide is a white crystalline solid.

Comment on solubility

Solubility of Trimethyl-[2-[4-[1-methyl-2-(trimethylammonio)ethyl]phenyl]propyl]ammonium

Trimethyl-[2-[4-[1-methyl-2-(trimethylammonio)ethyl]phenyl]propyl]ammonium, which has a complex structure, exhibits unique solubility characteristics due to its cationic nature. Here are some important points to consider:

Polar Solvents: This compound is likely to be soluble in highly polar solvents such as water due to the presence of the trimethylammonium group, which can engage in favorable interactions with polar molecules.
Hydrophobic Regions: The aromatic phenyl and alkyl chains may contribute to hydrophobic interactions, potentially leading to decreased solubility in purely nonpolar solvents.
Temperature Dependency: Solubility can vary significantly with temperature; typically, organic compounds might show increased solubility at elevated temperatures.
pH Influence: The solubility can also be affected by the pH of the solution, as changes can impact the ionization state of the trimethylammonium group.

In conclusion, the solubility of Trimethyl-[2-[4-[1-methyl-2-(trimethylammonio)ethyl]phenyl]propyl]ammonium may be enhanced in polar environments while facing challenges in nonpolar solvents. Understanding these factors can help predict behavior in various chemical contexts.

Interesting facts

Interesting Facts about Trimethyl-[2-[4-[1-methyl-2-(trimethylammonio)ethyl]phenyl]propyl]ammonium

This compound, known for its complex structure and unique properties, is an intriguing example of ammonium compounds that have applications in various fields. Here are some fascinating insights about this compound:

Quaternary Ammonium Compound: As a quaternary ammonium compound, it features a nitrogen atom that is bonded to four organic groups. This characteristic often leads to cationic behavior, making it useful in a range of applications from biochemistry to materials science.
Role in Surfactants: Due to its chemical structure, this compound can act as a surfactant, helping to lower the surface tension between liquids and solids. This property makes it essential in various formulations such as detergents and emulsifiers.
Biocompatibility: Compounds similar to this often exhibit biocompatible properties, making them suitable for use in biological systems, which is particularly valuable in drug delivery and medical applications.
Pavilion of Research: The intricate structure of this molecule opens the door for extensive research in organic synthesis and catalysis. Scientists often study variations of such compounds to develop new materials with enhanced properties.
Potential in Nanotechnology: The unique function of this compound in forming stable dispersions can lead to innovative applications in nanotechnology, including the development of targeted drug delivery systems and advanced materials.

In conclusion, trimethyl-[2-[4-[1-methyl-2-(trimethylammonio)ethyl]phenyl]propyl]ammonium is not just another chemical compound; it’s a versatile entity with promising applications across **various scientific realms**. As research progresses, its potential continues to unfold, providing exciting opportunities for future innovations in chemistry.