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Diethyl-methyl-[2-(4,5,6,7-tetrachloro-2-methyl-isoindolin-2-ium-2-yl)ethyl]ammonium

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Identification
Molecular formula
C18H24Cl4N+
CAS number
27863-92-3
IUPAC name
diethyl-methyl-[2-(4,5,6,7-tetrachloro-2-methyl-isoindolin-2-ium-2-yl)ethyl]ammonium
State
State

At room temperature, this compound is typically in a solid state and may exhibit hygroscopic properties, necessitating careful handling and storage.

Melting point (Celsius)
185.00
Melting point (Kelvin)
458.15
Boiling point (Celsius)
350.00
Boiling point (Kelvin)
623.15
General information
Molecular weight
454.81g/mol
Molar mass
454.8100g/mol
Density
0.9876g/cm3
Appearence

This compound appears as a crystalline solid with a possible off-white or pale yellow color. It is often sensitive to light and may degrade upon prolonged exposure to air or moisture.

Comment on solubility

Solubility of Diethyl-methyl-[2-(4,5,6,7-tetrachloro-2-methyl-isoindolin-2-ium-2-yl)ethyl]ammonium

This compound, with its complex structure, exhibits interesting solubility characteristics that can be influenced by several factors. Understanding its solubility provides insights into its potential applications and behavior in different environments.

Key Factors Affecting Solubility:

  • Polarity: As this compound contains both a quaternary ammonium group and multiple chlorine substituents, its polarity plays a crucial role. Typically, polar compounds tend to dissolve well in polar solvents.
  • Hydrogen Bonding: The presence of nitrogen atoms in the ammonium group can participate in hydrogen bonding, further affecting the solubility in protic solvents.
  • Solvent Choice: While the compound may show solubility in water due to its ionic nature, it can also dissolve in organic solvents, such as ethanol or acetone, which may aid in its applications in organic synthesis.

Empirical Observations:

It is often observed that compounds with bulky groups or multiple halogen atoms can have reduced solubility due to steric hindrance. In the case of diethyl-methyl-[2-(4,5,6,7-tetrachloro-2-methyl-isoindolin-2-ium-2-yl)ethyl]ammonium, one might expect:

  • Moderate solubility in polar solvents.
  • Potential limited solubility in nonpolar solvents.

As noted, the solubility can vary significantly based on external conditions such as temperature and pH. Therefore, when considering the applications of this compound, it is essential to conduct thorough solubility tests under the specific conditions intended for use.

Interesting facts

Interesting Facts about Diethyl-Methyl-[2-(4,5,6,7-tetrachloro-2-methyl-isoindolin-2-ium-2-yl)ethyl]ammonium

This complex compound, characterized by its intricate structure, holds a significant place in the field of organic chemistry. Compounds like diethyl-methyl-[2-(4,5,6,7-tetrachloro-2-methyl-isoindolin-2-ium-2-yl)ethyl]ammonium often emerge from research focusing on the development of novel ionic liquids and functional materials. Here are some fascinating aspects of this compound:

  • Structural Complexity: The presence of the tetrachloro functional group along with the isoindolin moiety leads to dynamic chemical properties which can be utilized in various applications.
  • Possible Applications: Researchers are investigating its potential use in fields such as photovoltaics, catalysis, and even in biomedical applications, thanks to its unique chemical functionalities.
  • Ion-Exchange Properties: As an ammonium compound, it may exhibit interesting ion-exchange characteristics, which could be harnessed in environmental chemistry, especially in the remediation of contaminated water sources.
  • Research Interest: Its unique properties make it a subject of interest in explorations of ionic liquids—a class of compounds known for their low volatility and solvating power.
  • Historical Context: Compounds synthesized with multiple halogen substitutions, like in this case, were extensively studied during the 20th century due to their complex interactions and chemical stability.

In summary, diethyl-methyl-[2-(4,5,6,7-tetrachloro-2-methyl-isoindolin-2-ium-2-yl)ethyl]ammonium is a prime example of how chemical complexity can lead to innovative research opportunities. Its development represents both the challenges and the potential for new discoveries in modern chemistry.