Non-2-ene | Solubility of Things

Identification

Molecular formula

C₉H₁₈

CAS number

6434-60-6

IUPAC name

non-2-ene

State

Non-2-ene exists as a liquid at room temperature.

Melting point (Celsius)

-81.20

Melting point (Kelvin)

191.95

Boiling point (Celsius)

146.90

Boiling point (Kelvin)

420.05

General information

Molecular weight

126.24g/mol

Molar mass

126.2390g/mol

Density

0.7150g/cm³

Appearence

Non-2-ene is a colorless liquid under standard conditions, and it generally has an oily texture. It is often used in chemical synthesis and industrial applications.

Comment on solubility

Solubility of Non-2-ene

Non-2-ene, a member of the alkene family, exhibits some unique characteristics in terms of solubility. Being a hydrocarbon, it largely behaves as a nonpolar compound, which influences its interactions with different solvents.

Key Points on Solubility

Insoluble in Water: Due to its nonpolar nature, non-2-ene is insoluble in water. Water, being a polar solvent, does not effectively interact with nonpolar molecules.
Soluable in Organic Solvents: Non-2-ene demonstrates good solubility in nonpolar organic solvents such as hexane, benzene, and diethyl ether. This is attributed to the principle of "like dissolves like," where nonpolar compounds mix well with other nonpolar substances.
Temperature Effects: The solubility of non-2-ene may increase with temperature in organic solvents, making it more favorable for processes involving heat.

In summary, non-2-ene's solubility behavior is governed by its nonpolar characteristics, making it particularly compatible with other nonpolar organic solvents while remaining insoluble in polar environments like water. This understanding is vital for applications involving this compound in organic reactions or preparations.

Interesting facts

Interesting Facts about Non-2-ene

Non-2-ene, an intriguing member of the alkene family, is classified as a linear hydrocarbon with various applications in organic chemistry and industrial processes. Here are some captivating points to consider:

Structural Isomers: Non-2-ene has several structural isomers due to the presence of a double bond. Each isomer offers unique properties and reactivity, making it a subject of interest for chemists studying isomerization and reaction mechanisms.
Polymerization Potential: Like many alkenes, non-2-ene can undergo polymerization, leading to the creation of various polymers. This property is crucial in the production of materials used in plastics and coatings.
Natural Occurrence: While primarily synthesized in laboratories, non-2-ene is also found in trace amounts in certain natural substances. Its presence in plants and essential oils makes it a candidate for further exploration in natural product chemistry.
Industrial Relevance: Non-2-ene serves as an intermediate in the synthesis of other chemical compounds, showcasing its utility in the chemical industry. Its ability to participate in reactions such as hydrogenation and oxidation expands its potential applications.
Environmental Considerations: As with many hydrocarbons, the production and use of non-2-ene raise environmental issues. Understanding its behavior and effects on the environment remains vital for sustainable chemistry practices.

As a chemistry student or chemical scientist, investigating non-2-ene provides insights into the broader landscape of organic chemistry, illustrating the intricate relationships between structure, reactivity, and application in various fields. Remember, “Every compound has a story; it’s our job to uncover it!”

Synonyms

non-2-ene

2216-38-8

DTXSID70860390

RefChem:365761

DTXCID10810091

2-Nonene

27215-95-8

non-7-ene

SCHEMBL55937

SCHEMBL80810

SCHEMBL564246

SCHEMBL581758

SCHEMBL1419297

SCHEMBL2119465

SCHEMBL2122453

SCHEMBL2876257

SCHEMBL3460438

SCHEMBL7792864

SCHEMBL7792866

SCHEMBL8110552

SCHEMBL8538291

SCHEMBL9202159

SCHEMBL10631202

N0476