Azodicarbonamide | Solubility of Things

Identification

Molecular formula

C₂H₄N₄O₂

CAS number

123-77-3

IUPAC name

N-[4-(dihydroxyamino)-2-nitro-phenyl]iminoacetamide

State

At room temperature, azodicarbonamide is a solid. It is stable under normal conditions but should be stored in a dry place to prevent degradation.

Melting point (Celsius)

225.00

Melting point (Kelvin)

498.15

Boiling point (Celsius)

450.00

Boiling point (Kelvin)

723.15

General information

Molecular weight

116.08g/mol

Molar mass

116.0830g/mol

Density

1.6500g/cm³

Appearence

Azodicarbonamide is typically an orange to yellowish solid powder. It appears as a crystalline substance and is often used in its powder form for various industrial applications.

Comment on solubility

Solubility of N-[4-(dihydroxyamino)-2-nitro-phenyl]iminoacetamide

The solubility of N-[4-(dihydroxyamino)-2-nitro-phenyl]iminoacetamide is influenced by its chemical structure and functional groups. Here are some key points to consider:

Polar Functional Groups: The presence of hydroxyl groups (-OH) can enhance solubility in polar solvents, such as water, due to hydrogen bonding interactions.
Amide Group: The iminoacetamide structure may also contribute to moderate solubility in various organic solvents, allowing for versatile applications.
pH Dependency: The solubility can vary with pH changes, particularly as the compound contains both amine and hydroxyl groups that may protonate or deprotonate, altering solubility characteristics.

It is important to note that while this compound may display reasonable solubility in water, specific experimental conditions such as temperature and solvent choice can significantly impact its solubility profile. Thus, performing solubility tests under varied conditions would provide more comprehensive insights into its behavior in different environments.

Interesting facts

Interesting Facts about N-[4-(dihydroxyamino)-2-nitro-phenyl]iminoacetamide

N-[4-(dihydroxyamino)-2-nitro-phenyl]iminoacetamide is a compound that holds significance in various scientific fields, particularly in chemistry and pharmacology. Here are some intriguing aspects of this compound:

Biological Relevance: The presence of the nitro group and the amino functionalities in this compound often leads to its investigation in medicinal chemistry. Compounds like this one can exhibit potential effects in biological systems, influencing pharmacodynamic properties.
Potential Applications: As a part of research focused on drug development, this compound may serve as an intermediate in synthesizing pharmaceuticals or fungicides, thereby contributing to agricultural and medical advancements.
Research Studies: Studies involving compounds similar to this one have indicated their utility as *antioxidants* and *anticancer agents*, showcasing the importance of examining structural variations in organic compounds for enhancing therapeutic activities.
Chemistry of the Compound: The unique combination of a nitro group and a dihydroxyamino group contributes greatly to its reactivity. Such functional groups can be engaged in diverse chemical reactions, making this compound an interesting subject for synthetic organic chemistry.
Synthetic Pathways: Investigating the different synthetic routes to produce this compound often reveals insights into *green chemistry* practices, as researchers look for environmentally-friendly methodologies in its synthesis.

In summary, N-[4-(dihydroxyamino)-2-nitro-phenyl]iminoacetamide is a compound packed with potential. Understanding its properties and applications not only enhances our grasp of chemical behavior but also aids in the quest for innovative solutions in medicine and agriculture.