Skip to main content

N-[4-(dihydroxyamino)phenyl]iminobenzamide

ADVERTISEMENT
Identification
Molecular formula
C13H12N2O3
CAS number
456-32-8
IUPAC name
N-[4-(dihydroxyamino)phenyl]iminobenzamide
State
State

At room temperature, N-[4-(dihydroxyamino)phenyl]iminobenzamide is typically a solid. It is stable under normal laboratory conditions but should be stored away from light and moisture to prevent decomposition. It is insoluble in water but might be soluble in organic solvents like ethanol or dimethyl sulfoxide (DMSO).

Melting point (Celsius)
235.20
Melting point (Kelvin)
508.40
Boiling point (Celsius)
421.50
Boiling point (Kelvin)
694.60
General information
Molecular weight
242.26g/mol
Molar mass
242.2560g/mol
Density
1.3540g/cm3
Appearence

N-[4-(dihydroxyamino)phenyl]iminobenzamide appears as a crystalline solid. Its color may range from white to light yellow or tan depending on purity. It is typically in a powdered form but can also form needle-like or plate-like crystals. The compound is sensitive to light and moisture, which can affect its physical appearance.

Comment on solubility

Solubility of N-[4-(dihydroxyamino)phenyl]iminobenzamide

N-[4-(dihydroxyamino)phenyl]iminobenzamide is an intriguing compound that exhibits certain solubility characteristics worth noting. Generally, the solubility of organic compounds such as this one can vary significantly depending on several factors:

  • Polarity: The presence of functional groups such as the dihydroxyamino group may enhance solubility in polar solvents like water.
  • Hydrogen Bonding: The ability to form hydrogen bonds increases the solubility in polar solvents. In this case, the hydroxyl groups can engage in hydrogen bonding, facilitating interaction with water molecules.
  • Temperature: Solubility typically increases with temperature. Thus, testing this compound at different temperatures may yield varying results.
  • pH Levels: Changes in pH can also influence solubility, especially for compounds containing amine and hydroxyl functionalities, making it essential to examine its solubility under acidic and basic conditions.

As a general observation, organic compounds with similar structures often display higher solubility in organic solvents rather than in water. However, due to the unique properties of this compound, one might expect some degree of solubility in both polar and non-polar solvents.

The exploration of N-[4-(dihydroxyamino)phenyl]iminobenzamide's solubility behavior can yield valuable insights into its potential applications and interactions in various mediums.

Interesting facts

Interesting Facts about N-[4-(Dihydroxyamino)phenyl]iminobenzamide

N-[4-(Dihydroxyamino)phenyl]iminobenzamide, a compound with intriguing properties, is often studied for its potential implications in medicinal chemistry and organic synthesis. Here are some compelling aspects of this compound:

  • Structural Insights: The presence of dihydroxyamino and imine functional groups in its structure suggests that this compound may exhibit unique reactivity patterns, making it a subject of interest for chemists.
  • Pharmaceutical Potential: Compounds containing amino and hydroxyl groups are often investigated for their biological activities, including antioxidant, anti-inflammatory, and antimicrobial properties.
  • Research Applications: This compound can serve as a building block in the design of more complex molecules. Its functional groups can be manipulated further, contributing to the development of novel therapeutics.
  • Colorimetric Response: Some derivatives of similar compounds exhibit color changes in response to pH or environmental conditions, which can be useful in sensor applications.
  • Historical Context: Compounds like N-[4-(Dihydroxyamino)phenyl]iminobenzamide are part of a larger family of chemical entities that gained attention throughout the 20th century in various research initiatives aimed at improving human health.

In summary, N-[4-(Dihydroxyamino)phenyl]iminobenzamide represents a fascinating area of study in the field of organic chemistry and pharmaceutical sciences. Its unique structure provides numerous pathways for further research and exploration, underscoring the compound's significance in advancing chemical knowledge.