3-Nitronon-2-ene | Solubility of Things

Identification

Molecular formula

C₉H₁₅NO₂

CAS number

55548-30-6

IUPAC name

3-nitronon-2-ene

State

3-Nitronon-2-ene is usually found in its liquid state under standard conditions of temperature and pressure. The liquid nature is further supported by its relatively low melting point.

Melting point (Celsius)

-45.00

Melting point (Kelvin)

228.10

Boiling point (Celsius)

262.50

Boiling point (Kelvin)

535.60

General information

Molecular weight

157.22g/mol

Molar mass

157.2130g/mol

Density

0.9786g/cm³

Appearence

3-Nitronon-2-ene is a colorless to pale yellow liquid. Its exact shade may vary depending on the specific sample and impurities, but it is generally clear with potentially a faint hue of yellow. The compound is typically observed in a transparent form when pure.

Comment on solubility

Solubility of 3-Nitronon-2-ene

3-Nitronon-2-ene, with its unique structure, presents intriguing solubility characteristics that are important for various applications. Solubility can be influenced by several factors, most notably:

Polarity: As a compound featuring both a nitro group and a double bond, the polarity of 3-nitronon-2-ene plays a key role. The nitro group (-NO₂) increases the polarity, allowing it to interact with polar solvents.
Solvent Type: This compound is generally more soluble in organic solvents such as ethanol and acetone, while its solubility in water is significantly lower due to the hydrophobic nature of the alkene portion of the molecule.
Temperature: Like many organic compounds, the solubility of 3-nitronon-2-ene often increases with temperature, making it more soluble at elevated temperatures.

In conclusion, 3-nitronon-2-ene demonstrates interesting solubility behavior, favoring organic solvents over water. Understanding these solubility properties is crucial for applications in synthesis, extraction, and analytical chemistry.

Interesting facts

Interesting Facts about 3-Nitronon-2-ene

3-Nitronon-2-ene is a chemical compound that holds significance in various fields of chemistry, particularly in organic synthesis and materials science. Here are some intriguing insights into this compound:

Structure and Reactivity: This compound features a nitro group, which is known to affect its chemical reactivity. The presence of the nitro group influences the stability and acidity of the hydrogen atoms in the molecule, making it a fascinating subject for chemists studying reaction mechanisms.
Applications in Synthesis: 3-Nitronon-2-ene serves as an important building block in organic synthesis. Its unique structure allows chemists to create a variety of derivatives, which can be useful in pharmaceuticals and agrochemicals.
Research Potential: Ongoing research is exploring the potential applications of this compound in materials science, particularly in the development of new polymers and nanomaterials. The behavior of organic nitrates like 3-nitronon-2-ene in materials can lead to innovative advancements in technology.
Historical Significance: Compounds containing nitro groups have been studied for over a century. The exploration of these compounds has contributed to significant advancements in understanding electrophilic substitutions and their applications in developing explosives and dyes.
Analytical Techniques: The study of 3-nitronon-2-ene often involves sophisticated analytical techniques such as NMR spectroscopy and mass spectrometry. These techniques are crucial for characterizing the compound and verifying its structure during research experiments.

In summary, 3-nitronon-2-ene is not just an organic compound; it is a gateway to understanding broader concepts in organic chemistry and its applications. The study of such compounds continues to pave the way for innovations across various domains of science and technology.