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5,13-Dichloro-2-iodonia-9-oxatricyclo[8.4.0.0<sup>3,8</sup>]tetradeca-1(10),3(8),4,6,11,13-hexaene

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Identification
Molecular formula
C13H11Cl2IO
CAS number
225389-36-0
IUPAC name
5,13-dichloro-2-iodonia-9-oxatricyclo[8.4.0.03,8]tetradeca-1(10),3(8),4,6,11,13-hexaene
State
State

At room temperature, 5,13-dichloro-2-iodonia-9-oxatricyclo[8.4.0.03,8]tetradeca-1(10),3(8),4,6,11,13-hexaene is a solid, and due to its molecular structure, it does not easily dissolve in water but can dissolve in some organic solvents.

Melting point (Celsius)
180.00
Melting point (Kelvin)
453.00
Boiling point (Celsius)
390.00
Boiling point (Kelvin)
663.00
General information
Molecular weight
380.57g/mol
Molar mass
380.5700g/mol
Density
1.4169g/cm3
Appearence

This compound appears as a pale yellow crystalline solid. It is usually obtained in a powder form, though it may form larger crystals depending on its synthesis and purification methods.

Comment on solubility

Solubility of 5,13-Dichloro-2-iodonia-9-oxatricyclo[8.4.0.03,8]tetradeca-1(10),3(8),4,6,11,13-hexaene

The solubility of 5,13-dichloro-2-iodonia-9-oxatricyclo[8.4.0.03,8]tetradeca-1(10),3(8),4,6,11,13-hexaene can be approached from various angles. Below are some key points to consider:

  • Polarity: This compound contains halogens (chlorine and iodine), which typically influence polarity. The overall structure might indicate a moderate polarity that can affect solubility in different solvents.
  • Solvent Interaction: Solubility often depends on the nature of the solvent. For instance:
    • Polar Solvents: Compounds with polar functional groups might have enhanced solubility.
    • Non-Polar Solvents: Conversely, structures dominated by carbon and halogen components can exhibit better solubility in non-polar mediums such as hydrocarbons.
  • Temperature Influence: As with many organic compounds, temperature might play a significant role. Increased temperature typically enhances solubility for most solids.
  • Structural Complexities: The unique bicyclic structure may lead to stereochemical factors that could hinder or enhance solubility.

In conclusion, predicting the solubility of this complex compound emphasizes the necessity of experimental validation, as theoretical predictions alone cannot account for all interactions in various solvent environments. Thus, it is often stated that "the only way to know a compound's solubility is to test it in the desired solvents." This compound warrants further investigation to uncover its solubility profile thoroughly.

Interesting facts

Interesting Facts about 5,13-Dichloro-2-iodonia-9-oxatricyclo[8.4.0.03,8]tetradeca-1(10),3(8),4,6,11,13-hexaene

5,13-Dichloro-2-iodonia-9-oxatricyclo[8.4.0.03,8]tetradeca-1(10),3(8),4,6,11,13-hexaene is a compound that exhibits a fascinating blend of complexity and potential applications. Here are some engaging facts about this unique chemical:

  • Structural Complexity: This compound boasts a tricylcic structure that makes it interesting to study. The presence of multiple halogens, such as Cl (chlorine) and I (iodine), contributes to its reactivity and functional versatility.
  • Organic Synthesis: As a potential intermediate in organic synthesis, it opens doors to creating other more complex organic molecules. Chemists often exploit its unique structure to develop new materials or pharmaceutical agents.
  • Electronics and Photonics: Research has suggested that compounds with similar structures may possess properties useful in electronics, particularly in photonics, where light manipulation is key. This could translate into applications in advanced imaging techniques or novel electronic devices.
  • Environmental Impact: Understanding the behavior and degradation of such compounds in the environment is critical. Their stability can affect how they accumulate and influence ecological systems, making it important to study their environmental chemistry.
  • Historical Significance: Compounds with halogen substituents have historical significance in medicinal chemistry, as they have led to the development of various therapeutic agents. Sometimes, these compounds have unexpected biological activities that spark interest in drug discovery.

Overall, 5,13-dichloro-2-iodonia-9-oxatricyclo[8.4.0.03,8]tetradeca-1(10),3(8),4,6,11,13-hexaene serves as a striking example of the intricate nature of chemical compounds. As quoted by a renowned chemist, “The beauty of chemistry lies in its complexity.” The exploration of such compounds continues to be an exciting venture in the world of chemical science.

Synonyms
3,7-Dichloropheniodoxin-5-ium ion
7DW7RW2TV0
Pheniodoxin-5-ium, 3,7-dichloro-
UNII-7DW7RW2TV0
46711-09-5