Chlorinated Arene Derivative | Solubility of Things

Identification

Molecular formula

C₄₀H₈Cl₁₆N₈

CAS number

70648-93-0

IUPAC name

5,6,7,8,14,15,16,17,23,24,25,26,32,33,34,35-hexadecachloro-2,11,20,29,37,38,39,40-octazanonacyclo[28.6.1.13,10.112,19.121,28.04,9.013,18.022,27.031,36]tetraconta-1,3(40),4(9),5,7,10,12(39),13(18),14,16,19,21,23,25,27,30(37),31(36),32,34-nonadecaene

State

At room temperature, this compound is typically a solid due to its complex structure and high molecular weight. It does not easily sublimate and maintains its solid state even at slightly elevated temperatures.

Melting point (Celsius)

170.00

Melting point (Kelvin)

443.15

Boiling point (Celsius)

350.00

Boiling point (Kelvin)

623.15

General information

Molecular weight

904.50g/mol

Molar mass

904.5000g/mol

Density

1.6340g/cm³

Appearence

This compound appears as a pale yellow solid. The extensive chlorination contributes to its distinctive coloration and its form can vary from crystalline to amorphous, depending on the sample purity and preparation method.

Comment on solubility

Solubility of 5,6,7,8,14,15,16,17,23,24,25,26,32,33,34,35-hexadecachloro-2,11,20,29,37,38,39,40-octazanonacyclo[28.6.1.13,10.112,19.121,28.04,9.013,18.022,27.031,36]tetraconta-1,3(40),4(9),5,7,10,12(39),13(18),14,16,19,21,23,25,27,30(37),31(36),32,34-nonadecaene

The solubility of the compound 5,6,7,8,14,15,16,17,23,24,25,26,32,33,34,35-hexadecachloro-2,11,20,29,37,38,39,40-octazanonacyclo[28.6.1.13,10.112,19.121,28.04,9.013,18.022,27.031,36]tetraconta-1,3(40),4(9),5,7,10,12(39),13(18),14,16,19,21,23,25,27,30(37),31(36),32,34-nonadecaene is quite complex due to its intricate structure and high degree of chlorination.

Because of this complexity, here are some key points regarding its solubility:

Polarity: Chlorinated compounds tend to have varied polarity, which can alter their solubility in water. This specific compound, with numerous chlorine atoms, is likely to be more hydrophobic.
Solvent Compatibility: It may be soluble in organic solvents such as chloroform or carbon tetrachloride, rather than in polar solvents like water.
Environmental Impact: Compounds with significant chlorination may present low solubility in water, which can influence their persistence and behavior in the environment.
Temperature Dependence: The solubility can also change with temperature; generally, increased temperature can enhance the solubility of organic compounds.

In conclusion, understanding the solubility of this compound is essential for its application and safety in various chemical processes, as well as for evaluating its environmental implications.

Interesting facts

Intriguing Insights into 5,6,7,8,14,15,16,17,23,24,25,26,32,33,34,35-Hexadecachloro-2,11,20,29,37,38,39,40-Octazanonacyclo[28.6.1.13,10.112,19.121,28.04,9.013,18.022,27.031,36]tetraconta-1,3(40),4(9),5,7,10,12(39),13(18),14,16,19,21,23,25,27,30(37),31(36),32,34-Nonadecaene

This compound, with its extensive chlorination and unique bicyclic structure, showcases some fascinating properties that make it a subject of interest in chemistry.

Key Characteristics

Complex Structure: The name indicates a highly complex architecture formed by multiple cycles, making it a remarkable example of organic synthesis.
Chlorination: The presence of numerous chlorine atoms often enhances the stability of the compound, which is a crucial feature in various applications.
Applications in Research: Such compounds are frequently studied for their potential implications in medicinal chemistry, particularly in the development of therapeutic agents.

Quote from a Renowned Chemist: "The beauty of organic chemistry lies in its ability to design intricate structures that can perform specific functions in nature." This sentiment resonates particularly with the structural intricacies of this compound.

Potential Applications

Environmental Chemistry: Compounds with chlorinated structures are often explored for their roles in various environmental processes.
Pharmaceuticals: The modification of existing compounds through chlorination can lead to the development of new drug candidates.
Materials Science: The unique properties could lead to applications in creating new materials with desirable characteristics.

In summary, 5,6,7,8,14,15,16,17,23,24,25,26,32,33,34,35-hexadecachloro-2,11,20,29,37,38,39,40-octazanonacyclo[28.6.1.13,10.112,19.121,28.04,9.013,18.022,27.031,36]tetraconta-1,3(40),4(9),5,7,10,12(39),13(18),14,16,19,21,23,25,27,30(37),31(36),32,34-nonadecaene represents a fascinating intersection of complexity and functionality, making it an exciting topic for ongoing chemical research and exploration.