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Kekulene

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Identification
Molecular formula
C48H24
CAS number
72746-99-9
IUPAC name
hexacyclo[10.10.2.02,7.09,23.014,19.020,24]tetracosa-1(23),2,4,6,8,10,12,14,16,18,20(24),21-dodecaene
State
State

Kekulene is a solid at room temperature.

Melting point (Celsius)
542.00
Melting point (Kelvin)
815.15
Boiling point (Celsius)
737.00
Boiling point (Kelvin)
1 010.15
General information
Molecular weight
0.00g/mol
Molar mass
0.0000g/mol
Density
1.4280g/cm3
Appearence

Kekulene is a polycyclic aromatic hydrocarbon, appearing as pale yellow crystalline solid.

Comment on solubility

Solubility of Hexacyclo[10.10.2.02,7.09,23.014,19.020,24]tetracosa-1(23),2,4,6,8,10,12,14,16,18,20(24),21-dodecaene

Hexacyclo[10.10.2.02,7.09,23.014,19.020,24]tetracosa-1(23),2,4,6,8,10,12,14,16,18,20(24),21-dodecaene is an intriguing compound known for its complex structure. When discussing the solubility of such specialized organic compounds, several factors come into play:

  • Polarity: The solubility of a compound often depends on its polarity. This compound, being highly saturated and containing numerous cyclic structures, might have limited solubility in polar solvents such as water.
  • Solvent Interaction: It is likely that this compound is better soluble in non-polar solvents. "Like dissolves like," so hydrocarbons and organic solvents—such as hexane or toluene—could facilitate its dissolution.
  • Temperature Effect: Increased temperature typically enhances solubility for many organic compounds. Therefore, heating might improve the solubility of hexacyclo[10.10.2.02,7.09,23.014,19.020,24]tetracosa in specific solvents.
  • Crystallinity: The solid-state form and crystallinity of this compound can significantly influence its solubility. A more crystalline structure may impede solubility, while amorphous forms generally exhibit higher solubility.

In summary, the solubility of hexacyclo[10.10.2.02,7.09,23.014,19.020,24]tetracosa-1(23),2,4,6,8,10,12,14,16,18,20(24),21-dodecaene is complex and largely influenced by its hydrophobic character, the choice of solvent, temperature alterations, and structural adaptability. Understanding these parameters is crucial for practical applications in chemical research and development.

Interesting facts

Interesting Facts about Hexacyclo[10.10.2.02,7.09,23.014,19.020,24]tetracosa-1(23),2,4,6,8,10,12,14,16,18,20(24),21-dodecaene

Hexacyclo[10.10.2.02,7.09,23.014,19.020,24]tetracosa-1(23),2,4,6,8,10,12,14,16,18,20(24),21-dodecaene is a fascinating compound that showcases the complexity of organic chemistry, particularly within the realm of polycyclic hydrocarbons. Here are some remarkable aspects to consider:

  • Complex Structure: This compound is characterized by its intricate polycyclic structure, consisting of multiple interconnected rings. The notation is indicative of a highly condensed network of carbon atoms, demonstrating the rich diversity of structural arrangements in organic compounds.
  • Synthetic Interest: Compounds such as this one are often of significant interest in the field of synthetic organic chemistry. Researchers are eager to explore their potential applications in materials science, especially in the development of organic semiconductors and advanced molecular electronics.
  • Nature of Dodecaene: The term "dodecaene" suggests that this compound features a unique arrangement of double bonds, which can impart particular reactivity and physical properties. The presence of these double bonds can play an essential role in the compound's chemical behavior and interactions.
  • Applications Beyond Chemistry: Due to its complexity, this compound may serve as a model for studying more extensive chemical phenomena, including conjugated systems that are fundamental in understanding properties like electron transport and light absorption.
  • Research Potential: Ongoing research on compounds with similar structures may open doors to discovering new pharmaceuticals, agrochemicals, and polymeric materials, making them pivotal in both academic and industrial chemistry.

In the words of renowned chemist Linus Pauling, "Chemistry is the study of matter, but I prefer to see it as the study of change." The study of hexacyclo[10.10.2.02,7.09,23.014,19.020,24]tetracosa-1(23),2,4,6,8,10,12,14,16,18,20(24),21-dodecaene exemplifies this change, allowing scientists to investigate new realms of reactivity and potential applications.

Synonyms
DIBENZO(A,I)PYRENE
Benzo[rst]pentaphene
189-55-9
Dibenzo[a,i]pyrene
Benzo(rst)pentaphene
Dibenz(a,i)pyrene
Dibenz[a,i]pyrene
3,4:9,10-Dibenzopyrene
Dibenzo(b,h)pyrene
DB(a,i)P
1,2:7,8-Dibenzpyrene
Benzo(r,s,t)pentaphene
1,2,7,8-Dibenzopyrene
RCRA waste number U064
3,4:9,10-Dibenzpyrene
CCRIS 214
NSC 87521
HSDB 4027
EINECS 205-877-5
3,4,9,10-Dibenzopyrene
UNII-7FMI112D18
BRN 1881370
7FMI112D18
NSC-87521
BENZO(RST)PENTACENE
[3,4:9,10]Dibenzpyrene
Dibenzo-3,4,9,10-pyrene
DTXSID9059751
DIBENZO(A,I)PYRENE [HSDB]
DIBENZO(A,I)PYRENE [IARC]
NSC87521
(3,4:9,10)Dibenzpyrene
DIBENZO(A,I)PYRENE (IARC)
RCRA waste no. U064
3,4-9,10-dibenzopyrene
3,10-Dibenzpyrene
Benzo[r,t]pentaphene
3,10-Dibenzopyrene
1,7,8-Dibenzopyrene
1,2:7,8Dibenzpyrene
1,2,7,8Dibenzopyrene
3,9,10-Dibenzopyrene
3,4:9,10Dibenzpyrene
3,4:9,10Dibenzopyrene
Dibenzo-3,9,10-pyrene
3,4,9,10-Dibenzpyrene
NCIOpen2_009544
DTXCID3035971
CHEBI:82314
MSK4326
AKOS015914060
DA-52509
hexacyclo[10.10.2.02,7.09,23.014,19.020,24]tetracosa-1(23),2,4,6,8,10,12,14,16,18,20(24),21-dodecaene
HY-124211
CS-0085882
NS00041814
Dibenz[a,i]pyrene 10 microg/mL in Isooctane
C19223
G76952
WLN: L D6 B66 P666 2AB A & J
Dibenz[a,i]pyrene 10 microg/mL in Acetonitrile
Dibenzo[a,i]pyrene 10 microg/mL in Acetonitrile
Q26841007