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Tetracyclododecane

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Identification
Molecular formula
C34H28O2
CAS number
212351-54-7
IUPAC name
nonacyclo[18.10.2.22,5.03,16.04,13.06,11.017,31.022,27.028,32]tetratriaconta-1(31),2,4,6,8,10,13,15,17,19,22,24,26,28(32),29,33-hexadecaene-12,21-dione
State
State

At room temperature, this compound is a solid due to its complex and large polycyclic structure, which gives it a high melting point.

Melting point (Celsius)
162.00
Melting point (Kelvin)
435.00
Boiling point (Celsius)
353.00
Boiling point (Kelvin)
626.00
General information
Molecular weight
572.83g/mol
Molar mass
572.8320g/mol
Density
1.2821g/cm3
Appearence

This compound appears as white crystalline powder. It has a complex polycyclic structure which imparts a solid appearance.

Comment on solubility

Solubility of Nonacyclo[18.10.2.22,5.03,16.04,13.06,11.017,31.022,27.028,32]tetratriaconta-1(31),2,4,6,8,10,13,15,17,19,22,24,26,28(32),29,33-hexadecaene-12,21-dione

The solubility of complex organic compounds such as nonacyclo[18.10.2.22,5.03,16.04,13.06,11.017,31.022,27.028,32]tetratriaconta-1(31),2,4,6,8,10,13,15,17,19,22,24,26,28(32),29,33-hexadecaene-12,21-dione is influenced by various factors due to its unique structure. Understanding its solubility is crucial when considering its applications and behavior in different environments. Here are some key points regarding its solubility:

  • Polar vs. Nonpolar Solvents: Due to its likely nonpolar nature, this compound may demonstrate greater solubility in nonpolar solvents such as hexane or toluene, and limited solubility in polar solvents like water.
  • Temperature Effects: Solubility can greatly increase with temperature; as a general rule, organic compounds tend to dissolve better at higher temperatures.
  • Functional Groups Influence: The specific functional groups present in the structure can affect solubility. For instance, any polar groups would enhance solubility in polar solvents.
  • Conformational Flexibility: The intricate structure might lead to varying degrees of conformational flexibility, which can affect solubility through changes in intermolecular interactions.

To summarize, the solubility of nonacyclo[18.10.2.22,5.03,16.04,13.06,11.017,31.022,27.028,32]tetratriaconta-1(31),2,4,6,8,10,13,15,17,19,22,24,26,28(32),29,33-hexadecaene-12,21-dione is a complex interplay of its structural attributes and environmental conditions. A careful assessment of these factors is essential for predicting its behavior in different settings.

Interesting facts

Interesting Facts about Nonacyclo[18.10.2.22,5.03,16.04,13.06,11.017,31.022,27.028,32]tetratriaconta-1(31),2,4,6,8,10,13,15,17,19,22,24,26,28(32),29,33-hexadecaene-12,21-dione

This fascinating chemical compound, known for its extensive and complex structure, is part of the larger class of organic compounds characterized by intricate polycyclic frameworks. The *nonacyclo* prefix indicates that this molecule contains nine cycles, showcasing a level of structural complexity that attracts significant interest from chemists and materials scientists alike.

Here are some intriguing aspects of this compound:

  • Structural Diversity: The unique arrangement of its cyclic systems opens up discussions on stereochemistry and the impact of structural isomerism on physical and chemical properties.
  • Biological Relevance: Compounds with similar frameworks are often investigated for their potential biological activities, including antibacterial and anticancer properties.
  • Material Science Applications: Due to its polycyclic nature, derivatives of this molecule have potential applications in the field of polymers and nanomaterials.
  • Research Interest: Given the ongoing research in complex organic molecules, nonacyclo compounds like this one remain a pivotal focus, prompting studies into their synthesis and functionalization.

As a notable member of its class, this compound embodies the complexity and beauty of organic chemistry. It emphasizes the importance of multicyclic structures in the development of new materials and pharmaceuticals. The intricate interplay of its cyclic systems not only serves as a model for understanding molecular geometry but also fosters innovative thinking in synthetic chemistry.

To quote a prominent chemist: *"The beauty of chemistry lies in understanding structures that can be both extraordinarily complex yet elegantly simple."*

With its expansive potential, this compound encourages ongoing exploration into the realms of synthetic creativity and functional applications.

Synonyms
Violanthrone
116-71-2
Anthra[9,1,2-cde]benzo[rst]pentaphene-5,10-dione
Dibenzanthrone
Violanthrone A
Bianthrone A
Vat Blue 20
Tinon Dark Blue BOA
Ahcovat Dark Blue BO
Irgalite Blue 2R
Paradone Dark Blue
5,10-Violanthrenedione
Belanthrene Dark Blue BO
Tinon Dark Blue BO
Tinon Dark Blue MB
Violanthrene N
Ponsol Dark Blue BR
Tinon Dark Blue BOR
Tinon Dark Blue MBA
Caledon Dark Blue BM
Navinon Dark Blue BO
Benzadone Navy Blue R
Ponsol Dark Blue BRD
Cibanone Dark Blue BO
Leucosol Dark Blue BR
Endurol Dark Blue BOR
Mikethrene Dark Blue B
Anthravat Dark Blue BO
Calcoloid Dark Blue BO
Cibanone Dark Blue MBA
Amanthrene Dark Blue BO
Fenanthren Dark Blue BO
Mikethrene Dark Blue BO
Nyanthrene Navy Blue BR
Solanthrene Dark Blue B
Vat Dark Blue O
Benzadone Dark Blue BOA
Benzadone Dark Blue BOR
Calcoloid Dark Blue BOD
Hydroform Deep Blue BOA
Mikethren Dark Blue BOA
C.I. Vat Blue 20
Calcoloid Dark Blue B2R
Cibanone Dark Blue FBOA
Cibanone Dark Blue FMBA
Indanthrene Dark Blue BO
Nihonthrene Dark Blue BO
Solanthrene Dark Blue BA
Tyrian Dark Blue I-BOA
Indanthren Dark Blue BOA
Mikethrene Dark Blue BOA
Romantrene Dark Blue FBO
Benzadone Dark Blue BORI
Carbanthrene Dark Blue DR
Nihonthrene Dark Blue BOA
Palanthrene Dark Blue BOA
Pernithrene Dark Blue BOA
Sandothrene Dark Blue BOA
Sandothrene Dark Blue NBM
Sandothrene Dark Blue NBO
Sandothrene Dark Blue NBOA
Sandothrene Dark Blue NMBA
Solanthrene Dark Blue F-BA
Paradone Dark Blue 58321
Cibanone Dark Blue BOA
Amanthrene Supra Dark Blue BO
Caledon Printing Dark Blue BM
5,10-Violanthrene dione
Ostanthren Dark Blue BOA
Violanthrene-5,10-dione
Anthra(9,1,2-cde)benzo(rst)pentaphene-5,10-dione
Farbanthren Dark Blue BOA
Solanthrene Dark Blue BOA
Carbanthrene Printing Dark Blue DR
C.I. 59800
CI Vat Blue 20
VH1DQP6QPQ
NSC 2212
EINECS 204-152-0
Dinaphtho(1,2,3-cd:3',2',1'-lm)perylene-5,10-dione
NSC-2212
CI 59800
DTXSID7026281
nonacyclo[18.10.2.22,5.03,16.04,13.06,11.017,31.022,27.028,32]tetratriaconta-1(31),2,4,6,8,10,13,15,17,19,22,24,26,28(32),29,33-hexadecaene-12,21-dione
Dinaphtho[1,2,3-cd:3',2',1'-lm]perylene-5,10-dione
57455-86-4
UNII-VH1DQP6QPQ
Dinaphtho(1,3-cd:3',2',1'-lm)perylene-5,10-dione
Dinaphtho[1,3-cd:3',2',1'-lm]perylene-5,10-dione
C34H16O2
MFCD00046330
Vat Blue20
Violanthrone (8CI)
Vat Blue-20
CALEDON NAVY BM
Anthra9,1,2-cdebenzorstpentaphene-5,10-dione
SCHEMBL79475
CHEMBL344254
DTXCID806281
SANDOTHRENE DARK BLUE BA
CALCOLOID DARK BLUE B 2R
NSC2212
YKSGNOMLAIJTLT-UHFFFAOYSA-N
AKOS003617661
DS-5777
FA143390
CS-0070037
NS00020562
Q17093626
WLN: L6 G666 R6 B6 V6 E&6 U6 4ABVW K& MV K&VJ
475-50-3
814-885-3
841-219-9
nonacyclo[18.10.2.2^{2,5.0^{3,16.0^{4,13.0^{6,11.0^{17,31.0^{22,27.0^{28,32]tetratriaconta-1(31),2,4,6,8,10,13,15,17,19,22,24,26,28(32),29,33-hexadecaene-12,21-dione