N-Isobutyldeca-6,8-dien-1-imine oxide

Identification

Molecular formula

C₁₄H₂₇NO

CAS number

77678-93-4

IUPAC name

N-isobutyldeca-6,8-dien-1-imine oxide

State

At room temperature, N-isobutyldeca-6,8-dien-1-imine oxide is typically in a liquid state. It is characterized by its ability to remain fluid and clear, making it suitable for applications where a liquid form of the compound is advantageous.

Melting point (Celsius)

-49.50

Melting point (Kelvin)

223.65

Boiling point (Celsius)

254.00

Boiling point (Kelvin)

527.15

General information

Molecular weight

211.35g/mol

Molar mass

211.3490g/mol

Density

0.9560g/cm³

Appearence

N-Isobutyldeca-6,8-dien-1-imine oxide appears as a clear to slightly yellowish liquid. Its exact appearance can vary slightly depending on the purity of the sample but generally remains as a nearly colorless liquid under normal conditions.

Comment on solubility

Solubility of N-isobutyldeca-6,8-dien-1-imine oxide

N-isobutyldeca-6,8-dien-1-imine oxide exhibits unique properties when it comes to solubility. Understanding its behavior in various solvents can provide insight into its applications and reactivity. Here are some key points to consider:

Polar vs. Nonpolar Solvents: This compound tends to have limited solubility in polar solvents due to its large hydrophobic hydrocarbon tail, while it may show better solubility in nonpolar solvents such as hexane or toluene.
Concentration Dependency: The solubility may vary with concentration, indicating a gradual dissolution process that can be influenced by temperature and pressure.
Temperature Effects: Higher temperatures often increase the solubility of organic compounds, so the solubility of N-isobutyldeca-6,8-dien-1-imine oxide may improve at elevated temperatures.
Interactions with Solvents: Solvent-solute interactions play a pivotal role; for instance, the presence of functional groups within the compound may lead to hydrogen bonding with certain solvents.

In summary, while N-isobutyldeca-6,8-dien-1-imine oxide does not dissolve readily in all solvents due to its structural characteristics, its solubility can be optimized by selecting appropriate solvent systems and conditions. Experimentation can reveal effective solvent choices and enhance understanding of its solubility profile.

Interesting facts

Interesting Facts about N-isobutyldeca-6,8-dien-1-imine oxide

N-isobutyldeca-6,8-dien-1-imine oxide is a compound that belongs to the class of imine derivatives, which are known for their versatile applications in organic synthesis and material science. Here are some engaging facts about this intriguing compound:

Structural Significance: The unique structure of N-isobutyldeca-6,8-dien-1-imine oxide includes multiple double bonds within its carbon chain, contributing to its reactivity and potential use in various chemical reactions. The term "imine" refers to a functional group characterized by a carbon-nitrogen double bond, which plays a critical role in forming other complex organic compounds.
Oxidative Properties: The presence of the oxide functional group suggests that this compound could exhibit interesting oxidative properties, making it useful in reactions that require selective oxidation of substrates, thus showcasing its reactivity.
Synthetic Utility: Compounds like N-isobutyldeca-6,8-dien-1-imine oxide are often employed as intermediates in synthetic pathways. Their ability to undergo various transformations is of significant interest in the field of drug discovery and material formulation.
Application in Nanotechnology: The reactivity of this compound may pave the way for innovative applications in nanotechnology, where precise control over chemical properties is essential for the development of nanoscale materials.
Research Insights: Scientists constantly explore the reactivity and mechanisms involving imine oxides, often leading to the discovery of new catalytic processes. Understanding these mechanisms can unlock pathways for more efficient chemical manufacturing.

In conclusion, N-isobutyldeca-6,8-dien-1-imine oxide exemplifies the fascinating world of organic compounds, showcasing a range of functions that facilitate advancements in chemistry, materials science, and beyond. As research continues, one can expect new revelations about its potential uses and impacts.