Suberonitrile | Solubility of Things

Identification

Molecular formula

C₇H₁₂N₂

CAS number

373-62-2

IUPAC name

heptanedinitrile

State

At room temperature, suberonitrile is a liquid. It remains stable under standard conditions and does not readily evaporate due to its relatively high boiling point.

Melting point (Celsius)

-29.00

Melting point (Kelvin)

244.15

Boiling point (Celsius)

268.00

Boiling point (Kelvin)

541.15

General information

Molecular weight

124.18g/mol

Molar mass

124.1820g/mol

Density

0.9692g/cm³

Appearence

Suberonitrile appears as a clear liquid. It may not have a strong color and is typically used as a chemical intermediate in organic syntheses.

Comment on solubility

Solubility of Heptanedinitrile

Heptanedinitrile, with the chemical formula C₇H₁₀N₂, presents interesting characteristics in terms of solubility. Understanding its behavior in various solvents can provide insight into its potential applications. Here are some key points regarding the solubility of this compound:

Polar Solvents: Heptanedinitrile is known to exhibit limited solubility in polar solvents due to its hydrophobic hydrocarbon chain.
Non-Polar Solvents: It tends to be more soluble in non-polar solvents like hexane or petroleum ether, attributing to similar intermolecular forces that allow for better interactions.
Temperature Dependence: Like many organic compounds, the solubility may also increase with temperature, which is crucial for processes that require specific concentrations.
Miscibility: Heptanedinitrile is generally not miscible with water, which can limit its use in aqueous environments.

In summary, the solubility profiles of heptanedinitrile are influenced by solvent polarity, temperature, and the structural characteristics of the compound itself. As a result, careful consideration is needed when selecting solvents for reactions or applications involving this chemical.

Interesting facts

Interesting Facts About Heptanedinitrile

Heptanedinitrile, a fascinating organic compound, belongs to the class of nitriles, specifically dinitriles. This compound is characterized by its unique structure, which includes a chain of seven carbon atoms with a nitrile group (-C≡N) attached at both ends. Here are some engaging insights regarding heptanedinitrile:

Versatile Building Block: Heptanedinitrile serves as an important intermediate in the synthesis of various chemical compounds, notably in the production of polymers and pharmaceuticals.
Functional Groups: The presence of the nitrile functional group enhances the reactivity of heptanedinitrile, making it a valuable compound in organic chemistry and materials science.
Chain Length: The seven-carbon chain length allows for interesting conformational properties and influences the compound's reactivity, distinguishing it from shorter-chain dinitriles.
Biochemical Relevance: Compounds similar to heptanedinitrile can exhibit biological activity, highlighting the potential for applications in drug development and biological research.
Studies and Research: Ongoing research into nitrile-containing compounds like heptanedinitrile aims to explore their applications in sustainable materials, catalysis, and even environmental remediation.

Heptanedinitrile is indeed a remarkable example of how simple molecular structures can lead to complex applications in modern chemistry. As we continue to discover more about such compounds, their importance in various fields—from industrial processes to potential therapeutic uses—becomes increasingly evident.

Synonyms

Heptanedinitrile

1,5-Dicyanopentane

646-20-8

PIMELONITRILE

Pentamethylene dicyanide

Pimelic acid dinitrile

1,7-heptanedinitrile

NSC 5392

EINECS 211-469-8

BRN 1742138

AI3-28713

3D5H23A27Q

NSC-5392

DTXSID3060952

DTXCID2044343

211-469-8

UNII-3D5H23A27Q

MFCD00001980

1,5-Dicyanopentane, 98%

SCHEMBL818520

NSC5392

AKOS009157293

MS-20922

DB-027338

NS00035724

P0049

EN300-55306

A834830

Q27257057

F0001-1749

InChI=1/C7H10N2/c8-6-4-2-1-3-5-7-9/h1-5H