Bezitramide | Solubility of Things

Identification

Molecular formula

C₂₅H₃₅NO₂

CAS number

150-13-0

IUPAC name

diethyl-[4-hydroxy-4-phenyl-4-(2-pyridyl)but-2-ynyl]-methyl-ammonium

State

At room temperature, Bezitramide is in a solid state, specifically often found as a crystalline powder. It is generally stable under normal conditions.

Melting point (Celsius)

83.00

Melting point (Kelvin)

356.15

Boiling point (Celsius)

302.00

Boiling point (Kelvin)

575.15

General information

Molecular weight

378.56g/mol

Molar mass

378.5560g/mol

Density

1.0950g/cm³

Appearence

Bezitramide is a white to off-white crystalline powder. It is often used in its hydrochloride salt form, which makes it more soluble and easier to handle in pharmaceutical formulations.

Comment on solubility

Solubility of Diethyl-[4-hydroxy-4-phenyl-4-(2-pyridyl)but-2-ynyl]-methyl-ammonium

The solubility of the compound diethyl-[4-hydroxy-4-phenyl-4-(2-pyridyl)but-2-ynyl]-methyl-ammonium is influenced by several key factors:

Polarity: The presence of both nonpolar phenyl groups and polar hydroxyl and ammonium functional groups creates a complex polarity profile, typically resulting in moderate to high solubility in polar solvents such as water and alcohols.
Hydrogen Bonding: The hydroxyl (-OH) and ammonium (-NH₃⁺) groups can participate in hydrogen bonding, which often enhances solubility in aqueous solutions.
Temperature: Like many organic compounds, increased temperature can improve solubility due to enhanced molecular interactions.
Concentration: The solubility may reach a saturation point beyond which additional amounts of the compound may precipitate out of solution.

Additionally, the specific environment and the presence of other solutes can significantly affect solubility. As stated in solubility theory, "like dissolves like," meaning that the compound is likely more soluble in protic solvents compared to aprotic solvents.

However, experimental determination is always recommended for accurate assessment, as various factors, including pH and solvent choice, can lead to unexpected outcomes.

Interesting facts

Interesting Facts about Diethyl-[4-hydroxy-4-phenyl-4-(2-pyridyl)but-2-ynyl]-methyl-ammonium

Diethyl-[4-hydroxy-4-phenyl-4-(2-pyridyl)but-2-ynyl]-methyl-ammonium, often referred to by its abbreviated name, is a fascinating compound with several intriguing characteristics and applications. Here are some key facts to know:

Unique Structure: This compound features a complex structure, incorporating a range of functional groups including a hydroxyl group, a pyridine ring, and an alkyne moiety which contribute to its chemical properties and reactivity.
Biological Significance: Compounds with similar structural features are often explored for their potential use in pharmacology. The presence of the pyridine moiety can enhance interactions with biological targets, making it a candidate for drug development.
Synthetic Versatility: Due to its unique structural components, this compound can serve as a precursor in organic synthesis, allowing for the construction of more complex molecules, facilitating the exploration of various chemical pathways.
Solubilizing Agent: The quaternary ammonium moiety can act as a solubilizing agent for otherwise insoluble compounds, which can be particularly useful in the development of formulations in medicinal chemistry.
Potential Applications: Beyond pharmaceuticals, this compound may have applications in materials science and nanotechnology, particularly in the design of novel materials with specific chemical properties.

As an exciting area of research, the complex nature of this compound opens up opportunities for further exploration:

Investigations into its reaction mechanisms and stability.
Studies on its biocompatibility and potential side effects when used in biological systems.
Exploration of structural modifications for enhanced functionality.

In conclusion, diethyl-[4-hydroxy-4-phenyl-4-(2-pyridyl)but-2-ynyl]-methyl-ammonium is not just a chemical entity but a gateway to a wide array of scientific inquiries and possible innovations. The ongoing research in its applications will undoubtedly yield significant insights and developments in the future.