Interesting facts
Interesting Facts about a Unique Chemical Compound
This intriguing compound, with a long and complex name, showcases the fascinating world of organic chemistry. It belongs to a category of compounds known for their potential applications in various fields such as pharmacy, biologics, and material science.
Key Features:
- Ammonium Salts: The presence of the diethylammonium moiety indicates that this compound is a quaternary ammonium salt, which often enhances solubility and stability in aqueous environments.
- Functional Groups: The compound contains various functional groups, including hydroxyl (-OH) and allyl groups, which can impart unique reactivity and biological activity.
- Potential Applications: Compounds like this have been studied for their uses as antimicrobial agents and in drug delivery systems due to their ability to interact with biological membranes.
As a chemical scientist or student, it is important to consider the structural implications of such a compound:
- Its intricate structure can lead to diverse reactivity and bioactivity profiles.
- The combination of phenyl and hydroxyl groups may influence the compound's interaction with light, leading to potential applications in photoreactive systems.
- Understanding such compounds can deepen insights into drug design, especially in creating molecules with improved target specificity.
In summary, this complex compound not only reflects the beauty of chemical architecture but also emphasizes the importance of its structural components in determining functionality and application in the scientific community.
Solubility of 3-allyl-5-[3-allyl-5-[(diethylammonio)methyl]-4-hydroxy-phenyl]-2-hydroxy-phenyl]methyl-diethyl-ammonium; dichloride
The solubility of the compound 3-allyl-5-[3-allyl-5-[(diethylammonio)methyl]-4-hydroxy-phenyl]-2-hydroxy-phenyl]methyl-diethyl-ammonium; dichloride is influenced by several key factors related to its chemical structure. This compound features a quaternary ammonium group, which typically enhances its solubility in polar solvents due to the highly ionic nature of the diethylammonio moiety.
In general, quaternary ammonium compounds tend to exhibit the following solubility characteristics:
As an example, many diethylammonium salts illustrate strong solubility in aqueous solutions due to their ionic composition. The presence of both allyl and hydroxyl substituents in this compound implies that hydrogen bonding could also play a role in solubility behavior. Furthermore, it is essential to consider the temperature as that may also affect the solubility profile.
In conclusion, while exact solubility data for this specific compound under various conditions is necessary for comprehensive analysis, it can generally be expected to be quite soluble in both polar and mildly organic solvents due to its structural characteristics. To determine practical solubility parameters, experimental data would yield the most accurate insights.