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Identification
Molecular formula
C36H22Br5N2O6
CAS number
null
IUPAC name
5,16,21,32,36-pentabromo-12,25-dinitroso-2,19-dioxa-10,27-diazapentacyclo[28.2.2.220,23.13,7.114,18]octatriaconta-1(32),3,5,7(38),11,14(37),15,17,20(36),21,23(35),25,30,33-tetradecaene-4,11,17,26-tetrol
State
State

The state of this compound at room temperature is not widely documented, thus specific data on whether it is a solid, liquid, or gas is unavailable.

Melting point (Celsius)
0.00
Melting point (Kelvin)
0.00
Boiling point (Celsius)
0.00
Boiling point (Kelvin)
0.00
General information
Molecular weight
0.00g/mol
Molar mass
0.0000g/mol
Density
0.0000g/cm3
Appearence

The appearance of this compound is not widely documented, hence specific details regarding its physical appearance such as color and texture are not readily available.

Comment on solubility

Solubility of 5,16,21,32,36-pentabromo-12,25-dinitroso-2,19-dioxa-10,27-diazapentacyclo[28.2.2.220,23.13,7.114,18]octatriaconta-1(32),3,5,7(38),11,14(37),15,17,20(36),21,23(35),25,30,33-tetradecaene-4,11,17,26-tetrol

The solubility of the compound C36H22Br5N2O6 is significantly influenced by its complex structure and the presence of multiple bromine and nitro functional groups. Here are key aspects to consider:

  • Polarity: The presence of polar functional groups, such as nitro (-NO2) and hydroxyl (-OH), suggests a potential for solubility in polar solvents.
  • Bromination: The five bromine atoms introduce substantial hydrophobic character, which can limit solubility in aqueous environments.
  • Interactions: The intricate molecular arrangement leads to possible steric hindrance, affecting how the compound interacts with solvents.
  • Practical Solubility: While theoretical considerations may suggest solubility in specific solvents, experimental data is essential for determining actual solubility behavior.

In conclusion, while the compound may exhibit some degree of solubility in organic solvents, a comprehensive understanding of its solubility requires contextual analysis within specific solvent systems. As a quote encapsulates this complexity, "In chemistry, solubility is not just a property, but a dance of interactions." Therefore, it is crucial to conduct solubility testing under controlled conditions to establish clear insights.

Interesting facts

Interesting Facts About 5,16,21,32,36-Pentabromo-12,25-Dinitroso-2,19-Dioxa-10,27-Diazapentacyclo[28.2.2.220,23.13,7.114,18]octatriaconta-1(32),3,5,7(38),11,14(37),15,17,20(36),21,23(35),25,30,33-Tetradecaene-4,11,17,26-Tetrol

This compound is a striking example of how intricate chemical structures can become, illustrating complexity in organic chemistry. Here are some fascinating aspects of this remarkable substance:

  • Halogen Diversity: The presence of five bromine atoms introduces interesting properties and potential applications, including its role in flame retardancy and other specialized chemical processes.
  • Nitroso Groups: The two nitroso functional groups contribute significant reactivity, making this compound a candidate for various chemical reactions, particularly in synthetic organic chemistry.
  • Structural Complexity: With its pentacyclic structure, it showcases an exceptional level of stereochemistry, which is likely to influence its physical and chemical properties immensely.
  • Biological Implications: Compounds with similar configurations and functional group compositions may have potential biochemical applications or toxicity concerns, highlighting the importance of understanding their interactions in biological systems.

A Quote to Consider

As a chemist once said, "Understanding complex structures is key to unlocking their potential in both industrial and environmental contexts."

This compound also reflects the need for caution in laboratory settings, as the presence of multiple halides and nitroso groups often signal increased toxicity and reactive behavior. Researchers must ensure adequate safety measures are in place when handling such compounds.

Overall, studying such complex molecules not only enriches our knowledge of chemical bonding and reactivity but also prompts vital discussions about their applications and safety in modern chemistry.