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Tetracyclo[10.2.1.0²,¹¹.0⁴,⁹]pentadeca-1(5),2,4,8-tetraene

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Identification
Molecular formula
C14H12
CAS number
550-54-5
IUPAC name
tetracyclo[10.2.1.05,14.08,13]pentadeca-1,3,5(14),6,8(13),9,11-heptaene
State
State

At room temperature, this compound is a crystalline solid, usually appearing as a yellowish substance due to its polycyclic conjugated system.

Melting point (Celsius)
64.00
Melting point (Kelvin)
337.15
Boiling point (Celsius)
246.00
Boiling point (Kelvin)
519.15
General information
Molecular weight
180.23g/mol
Molar mass
180.2330g/mol
Density
1.2390g/cm3
Appearence

Tetracyclo[10.2.1.05,14.08,13]pentadeca-1,3,5(14),6,8(13),9,11-heptaene appears as a solid crystalline material at room temperature. It has a yellowish color and is typically not hygroscopic. It is important to handle it with care as its stability under various conditions might vary.

Comment on solubility

Solubility of Tetracyclo[10.2.1.05,14.08,13]pentadeca-1,3,5(14),6,8(13),9,11-heptaene

Tetracyclo[10.2.1.05,14.08,13]pentadeca-1,3,5(14),6,8(13),9,11-heptaene - often simply referred to for its complex structure - exhibits unique solubility characteristics primarily influenced by its intricate arrangement of carbon atoms. Understanding its solubility is essential for applications in various chemical processes.

Key Points about Solubility:

  • Nonpolar Nature: The compound's structure suggests a predominantly nonpolar character due to the presence of multiple carbon rings. Nonpolar compounds typically have limited solubility in polar solvents like water.
  • Solvents: It is likely to be soluble in nonpolar solvents such as:
    • Hexane
    • Toluene
    • Chloroform
  • Crystalline Form: The arrangement of its molecular structure may also lead to a crystalline form that can affect solubility rates and equilibria.
  • Temperature Dependence: Solubility may increase with temperature, as is common with many organic compounds. Increased kinetic energy may lead to greater interaction with solvent molecules.
  • Applications: Its solubility behavior is critical in fields such as material science and organic chemistry, where it may be utilized in synthesis or formulation processes.

In summary, the solubility of tetracyclo[10.2.1.05,14.08,13]pentadeca-1,3,5(14),6,8(13),9,11-heptaene is a significant factor to consider when working with this compound. Its tendency to dissolve in nonpolar solvents under certain conditions highlights the importance of solvent selection in chemical experimentation.

Interesting facts

Interesting Facts About Tetracyclo[10.2.1.05,14.08,13]pentadeca-1,3,5(14),6,8(13),9,11-heptaene

Tetracyclo[10.2.1.05,14.08,13]pentadeca-1,3,5(14),6,8(13),9,11-heptaene is an intriguing compound that showcases the complexity and diversity of organic chemistry. Here are some fascinating insights about this unique molecule:

  • Cyclic Structures: This compound features a highly complex rig of fused cyclic structures, highlighting the rich variety of cyclic compounds in organic chemistry.
  • Interesting Isomerism: The presence of multiple cycles and double bonds allows for potentially different isomers, showcasing the vast possibilities in molecular configuration.
  • Applications in Research: Such tetracyclic compounds often serve as valuable models in pharmaceutical research and materials science, as they can exhibit unique physical and chemical properties.
  • Natural Connections: Molecules of this nature are sometimes found in natural products, prompting research into their biological activities and potential as drug candidates.
  • Stability and Reactivity: The unique arrangement of double bonds and rings influences the stability and reactivity of the compound, making it a subject of interest for mechanistic studies.

As described by chemists studying complex organic structures, "The beauty of organic chemistry lies not only in the compounds themselves but in the endless possibilities they present for innovation and discovery." This compound reflects that beauty perfectly, emphasizing the intricate dance of atoms within its structure.

In summary, tetracyclo[10.2.1.05,14.08,13]pentadeca-1,3,5(14),6,8(13),9,11-heptaene is more than just a chemical formula; it is a testament to the complexity and wonder found in the world of chemistry.

Synonyms
Methylenephenanthrene
203-64-5
4H-Cyclopenta[def]phenanthrene
4,5-METHYLENEPHENANTHRENE
4H-Cyclopenta(def)phenanthrene
4,5-Phenanthrylenemethane
Benzo(def)fluorene
Benzo[def]fluorene
Methane, 4,5-phenanthrylene-
Phenanthrene, 4,5-methylene-
Cyclopenta[d,e,f]phenanthrene
4-H-Cyclopenta(d,e,f)phenanthrene
NSC 88888
CCRIS 5797
EINECS 205-905-6
UNII-U16R456Q1Y
BRN 2043908
DTXSID1024887
AI3-52512
U16R456Q1Y
NSC-88888
Cyclopenta[def]phenanthrene
4,5-Methylene-phenanthrene
DTXCID204887
4-05-00-02409 (Beilstein Handbook Reference)
Cyclopenta(def)phenanthrene
tetracyclo[10.2.1.05,14.08,13]pentadeca-1,3,5(14),6,8(13),9,11-heptaene
4-H-CYCLOPENTA[D,E,F]PHENANTHRENE
MFCD00003804
Methane,5-phenanthrylene-
Phenanthrene,5-methylene-
BIDD:GT0431
CHEMBL1491899
NSC88888
Tox21_201057
Cyclopenta[d,e,f]phenanthrene, 97%
AKOS015916260
WLN: L566 B6 2AB O DHJ
NCGC00091166-01
NCGC00091166-02
NCGC00258610-01
CAS-203-64-5
HY-116547
CS-0065861
NS00041817
Q27290553