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Octachlorine phthalocyanine

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Identification
Molecular formula
C32H8Cl8N8
CAS number
1241-61-8
IUPAC name
6,8,14,16,24,26,32,34-octachloro-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
State

At room temperature, octachlorine phthalocyanine is a solid material. It usually exists as a powder or crystalline solid.

Melting point (Celsius)
300.00
Melting point (Kelvin)
573.15
Boiling point (Celsius)
740.00
Boiling point (Kelvin)
1 013.15
General information
Molecular weight
882.55g/mol
Molar mass
882.5540g/mol
Density
1.9200g/cm3
Appearence
Octachlorine phthalocyanine appears as a green crystalline powder. The color is due to the electronic structure of phthalocyanine, which allows it to absorb visible light in a way that gives it a vibrant coloration.
Comment on solubility

Solubility of 6,8,14,16,24,26,32,34-octachloro-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 characteristics of the compound 6,8,14,16,24,26,32,34-octachloro-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 can be quite complex due to its large and heavily chlorinated structure. By examining its unique composition, we can infer various solubility properties:

  • Chlorination Effect: The presence of numerous chlorine atoms generally increases hydrophobicity, suggesting a low solubility in water.
  • Polarity and Hydrogen Bonding: With minimal polar functional groups, the tendency to form hydrogen bonds with water is significantly reduced, further indicating limited solubility.
  • Solubility in Organic Solvents: The compound is more likely to be soluble in non-polar organic solvents such as hexane, toluene, or dichloromethane, where the overall hydrophobic interactions are favored.

Overall, while definitive solubility data may vary based on specific conditions, this compound is expected to be:

  1. Insoluble or only slightly soluble in water.
  2. Soluble in a variety of organic solvents.

Such solubility behaviors are critical for understanding the compound's interactions in various chemical environments, particularly in applications involving chlorinated compounds.

Interesting facts

Interesting Facts about 6,8,14,16,24,26,32,34-Octachloro-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 complex compound represents a fascinating realm of organic and inorganic chemistry, showcasing the versatility and intricacy of carbon-based structures.

Key Characteristics

  • Multi-cyclic Structure: The compound features a unique nonacyclic framework, crafted from interconnected cycles. These elaborate cycles can influence the overall stability and reactivity patterns.
  • High Degree of Chlorination: With eight chlorine substituents, it demonstrates significant alterations in physical and chemical properties. The addition of chlorines can enhance volatility and hydrophobicity.
  • Environmental Impact: Compounds with high chlorination have raised concerns regarding their persistence in the environment and potential bioaccumulation.

Applications and Research

Research surrounding this compound often revolves around the following areas:

  • Material Science: Due to its unique structure, it is of interest in developing specialized materials that can withstand extreme conditions.
  • Pharmaceuticals: The potential for utilizing its unique properties in drug design and development opens avenues for robust therapeutic agents.
  • Environmental Studies: Investigations into its behavior in ecological systems can yield insights into pollution and remediation strategies.

Scientific Importance

This compound serves as a prime example of how structural modifications impact molecular function and behavior. As carbon chains and cycles are expanded and modified, the implications for reactivity and application broaden substantially.

As noted by leading scientists, "Understanding extreme variations in molecular structure is key to unlocking innovative applications in chemistry." The study of such compounds is not merely academic; it holds practical significance in addressing real-world challenges.

Overall, the exploration of 6,8,14,16,24,26,32,34-octachloro-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 could lead to breakthroughs spanning multiple scientific domains.