Vemurafenib | Solubility of Things

Identification

Molecular formula

C₂₃H₁₈ClF₂N₃O₃S

CAS number

918504-65-1

IUPAC name

2-[3-[2-[diethyl(methyl)ammonio]ethoxycarbonyl]phenanthro[9,10-c]thiophene-1-carbonyl]oxyethyl-diethyl-methyl-ammonium

State

Vemurafenib is typically in a solid state at room temperature. It is processed as a powder for pharmaceutical use.

Melting point (Celsius)

285.00

Melting point (Kelvin)

558.15

Boiling point (Celsius)

370.00

Boiling point (Kelvin)

643.15

General information

Molecular weight

489.49g/mol

Molar mass

489.9260g/mol

Density

1.2000g/cm³

Appearence

Vemurafenib typically appears as a crystalline solid. The compound is often a white to off-white powder.

Comment on solubility

Solubility Characteristics

The solubility of the compound 2-[3-[2-[diethyl(methyl)ammonio]ethoxycarbonyl]phenanthro[9,10-c]thiophene-1-carbonyl]oxyethyl-diethyl-methyl-ammonium can be quite interesting to explore. This compound, characterized by its complex structure, presents unique interactions that can significantly influence its solubility profile.

Several factors contribute to the solubility of this compound:

Polarity: Due to the presence of multiple functional groups, including the diethyl(methyl)ammonio moiety, the polarity of the compound is increased, which could enhance its solubility in polar solvents.
Hydrogen Bonding: The potential for hydrogen bonding due to the ammonium groups may allow the compound to better interact with solvent molecules, further influencing solubility.
Macromolecular Structure: The large phenanthro[9,10-c]thiophene backbone may reduce water solubility, as larger, more aromatic structures often exhibit lower solubility in aqueous environments.

It is often noted that, "solubility is the key to chemical interactions," and in this case, both solvent choice and temperature may play crucial roles in determining the compound's behavior in solution. A few considerations include:

Testing in a variety of solvents, including water, ethanol, and dimethyl sulfoxide (DMSO).
Evaluating the impact of temperature variations on solubility behavior.
Assessing how structural modifications might affect overall solubility.

In conclusion, while predicting the exact solubility without empirical data can be challenging, understanding the interplay between molecular structure and solvent properties is essential for anticipating solubility characteristics in this intriguing compound.

Interesting facts

Exploring the Fascinating Compound: 2-[3-[2-[diethyl(methyl)ammonio]ethoxycarbonyl]phenanthro[9,10-c]thiophene-1-carbonyl]oxyethyl-diethyl-methyl-ammonium

This unique compound belongs to a class known for its diverse applications in organic synthesis and materials science. Here are some interesting facts:

Complex Structure: The compound showcases a sophisticated molecular architecture, integrating multiple functional groups that contribute to its reactivity and properties.
Therapeutic Potential: Compounds like this one are often studied for their potential in drug development. The presence of the ammonium group suggests possible interaction with biological membranes.
Photophysical Properties: Phenanthrothiophene units often exhibit remarkable photophysical characteristics, making them valuable in organic electronics, particularly in organic photovoltaic cells.
Ammonium Salts: The diethyl(methyl)ammonio moiety may impart solubility and ionic characteristics that are beneficial in various chemical reactions.
Utilization in Nanotechnology: The compound's unique features could be explored for applications in nanotechnology, such as in the development of nanoscale materials and devices.

As you delve deeper into the chemistry of this compound, consider the intricate balance between its structural components and the vast potential they hold. Each element plays a crucial role in defining the compound's overall behavior and functionality, making it a captivating subject of study for both chemists and material scientists.

In the words of renowned chemist Marie Curie, "Nothing in life is to be feared, it is only to be understood." Exploring compounds like this one is indeed a journey towards understanding the complexities of chemistry.