1,2-Dichloropentane | Solubility of Things

Identification

Molecular formula

C₅H₁₀Cl₂

CAS number

616-16-6

IUPAC name

1,2-dichloropentane

State

At room temperature, 1,2-Dichloropentane is a liquid. It is usually handled and stored in closed containers to prevent evaporation and exposure to air.

Melting point (Celsius)

-44.80

Melting point (Kelvin)

228.35

Boiling point (Celsius)

146.00

Boiling point (Kelvin)

419.15

General information

Molecular weight

141.00g/mol

Molar mass

141.0040g/mol

Density

0.9750g/cm³

Appearence

1,2-Dichloropentane is a colorless liquid. It is typically clear and free-flowing with a characteristic chemical odor typical of chlorinated hydrocarbons.

Comment on solubility

Solubility of 1,2-Dichloropentane

1,2-Dichloropentane (C₅H₁₀Cl₂) exhibits distinctive solubility characteristics due to its molecular structure. The presence of chlorine atoms gives it polar properties, making it interact with various solvents.

Here are some key points regarding the solubility of 1,2-dichloropentane:

Solvents: It is soluble in organic solvents such as ethanol, acetone, and diethyl ether.
Water: 1,2-Dichloropentane is insoluble in water due to its hydrophobic hydrocarbon chain, which resists interaction with polar water molecules.
Temperature Effects: Its solubility in organic solvents can increase with temperature, allowing for better mixing and interactions.

Overall, the solubility of 1,2-dichloropentane is a reflection of its balanced organic structure and the polar characteristics imparted by the chlorine substituents. This dual nature makes it a fascinating compound in the study of solubility and solvent interactions.

Interesting facts

Interesting Facts about 1,2-Dichloropentane

1,2-Dichloropentane is a fascinating organic compound that belongs to the family of chlorinated hydrocarbons. It is primarily recognized for its unique properties and applications in multiple fields. Here are some intriguing points to consider:

Structure and Isomerism: This compound consists of five carbon atoms with two chlorine substituents at the first and second positions. Its structure gives rise to different isomers, allowing for a variety of chemical behaviors.
Applications in Organic Synthesis: 1,2-Dichloropentane is often utilized as an intermediary in organic synthesis, acting as a building block for various chemicals and pharmaceuticals.
Safety and Handling: As a chlorinated compound, it is crucial to handle 1,2-dichloropentane with care due to its potential toxicity and environmental impact. Proper safety protocols should always be followed when working with such substances.
Environmental Considerations: Chlorinated hydrocarbons can pose environmental risks, such as persistence in ecosystems and bioaccumulation in living organisms. This fact highlights the importance of responsible usage and disposal of compounds like 1,2-dichloropentane.
Research Interest: Because of its unique properties, researchers frequently study 1,2-dichloropentane to understand its reactivity and interaction with other chemical agents, making it a valuable compound in academic research.

In summary, 1,2-dichloropentane is more than just a simple chlorinated alkane; it serves as an essential compound in organic chemistry with various applications and implications. Its intriguing structure and diverse uses make it a significant topic of discussion in scientific circles.

Synonyms

1,2-DICHLOROPENTANE

1674-33-5

605-481-6

pplbpduknrchgg-uhfffaoysa-n

Pentane, 1,2-dichloro-

SCHEMBL788681

DTXSID40870901

AKOS006273767

DB-043698

EN300-113919

G57622