Naphthylazirinecarboxamide | Solubility of Things

Identification

Molecular formula

C₁₃H₁₀N₂O

CAS number

123456-78-9

IUPAC name

N-(1-naphthyl)azirine-1-carboxamide

State

At room temperature, Naphthylazirinecarboxamide is typically found in a solid state.

Melting point (Celsius)

111.20

Melting point (Kelvin)

384.30

Boiling point (Celsius)

327.40

Boiling point (Kelvin)

600.50

General information

Molecular weight

199.22g/mol

Molar mass

199.2200g/mol

Density

1.2391g/cm³

Appearence

Naphthylazirinecarboxamide is typically a crystalline solid, often appearing in a color ranging from white to pale yellow, depending on the purity and any potential impurities present. It may exhibit a shimmering or crystalline sheen when observed under light.

Comment on solubility

Solubility of N-(1-naphthyl)azirine-1-carboxamide

N-(1-naphthyl)azirine-1-carboxamide is a compound that exhibits unique solubility characteristics tied to its structural attributes. This compound is generally considered to be sparingly soluble in water, which can be attributed to its relatively large aromatic naphthyl group. Here are some insights regarding its solubility:

Polar vs. Nonpolar Nature: The presence of the carboxamide functional group introduces some polarity, but the overall nonpolar naphthyl moiety may limit solubility in polar solvents.
Solvent Compatibility: It tends to dissolve better in organic solvents such as ethanol, acetone, or chloroform rather than in aqueous solutions.
Temperature Influence: As with many organic compounds, an increase in temperature can enhance its solubility in nonpolar solvents.

Although this compound may not be readily soluble in water, there could be applications or reactions where its solubility characteristics can be beneficial. Understanding its solubility can aid in designing experiments and optimizing conditions for desired outcomes.

Interesting facts

Interesting Facts about N-(1-naphthyl)azirine-1-carboxamide

N-(1-naphthyl)azirine-1-carboxamide is a fascinating compound that exhibits unique properties and potential applications in various fields of chemistry. Here are some intriguing aspects of this remarkable molecule:

Chemical Structure: The compound contains an azirine functional group, known for its strained three-membered ring that contributes to its reactivity. Additionally, the presence of the naphthyl group adds aromatic character, enhancing its stability and versatility.
Reactivity: Due to its azirine structure, N-(1-naphthyl)azirine-1-carboxamide is often used as an intermediate in synthetic organic chemistry. It can participate in various chemical reactions, including cycloaddition and nucleophilic substitution, making it invaluable in the synthesis of complex molecules.
Biological Activity: Compounds with similar structures have been studied for their biological properties. Some derivatives of azirines show promise as potential pharmaceuticals, with activities against cancer cells and other diseases. Researchers are actively investigating these fascinating properties.
Synthesis Routes: The synthesis of N-(1-naphthyl)azirine-1-carboxamide can involve several methodologies. These might include cyclization reactions or the incorporation of functional groups through modern methodologies, such as click chemistry, expanding the options for functionalization.
Research Applications: This compound is of great interest in the field of materials science and photochemistry. Its unique structure may lead to applications in developing new materials with specific optical or electronic properties.
Literature Insights: Studies in the scientific literature have shown that azirine compounds can lead to the development of novel sensors and catalysts, attesting to their importance in advancing chemical research.

In summary, N-(1-naphthyl)azirine-1-carboxamide is more than just a simple compound; it embodies a fusion of both structural elegance and reactivity that has broad implications in various scientific arenas. As research continues, it may unveil even more applications and understanding of this intriguing molecule.