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Bevirimat

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Identification
Molecular formula
C37H56O7
CAS number
474645-27-7
IUPAC name
9,30-dioxa-11,25-diazapentacyclo[20.6.2.28,11.010,15.025,29]dotriacontan-1-ol
State
State

At room temperature, Bevirimat is typically in a solid state. It is stable under normal conditions and should be handled in a manner consistent with good laboratory practices.

Melting point (Celsius)
289.00
Melting point (Kelvin)
562.15
Boiling point (Celsius)
418.00
Boiling point (Kelvin)
691.15
General information
Molecular weight
592.84g/mol
Molar mass
393.5700g/mol
Density
1.2000g/cm3
Appearence

Bevirimat appears as a crystalline solid that may have varying shades, often seen as a white to off-white powder. The exact appearance can depend on the specific form and purity level of the sample.

Comment on solubility

Solubility of 9,30-Dioxa-11,25-diazapentacyclo[20.6.2.28,11.010,15.025,29]dotriacontan-1-ol

The solubility of this intricate compound, known as 9,30-dioxa-11,25-diazapentacyclo[20.6.2.28,11.010,15.025,29]dotriacontan-1-ol (C37H56O7), can be quite fascinating due to its complex structure. It is often important to consider the following aspects when discussing its solubility:

  • Hydrophilicity vs. Hydrophobicity: The presence of multiple oxygen atoms in the molecular formula suggests that the compound may exhibit some level of hydrophilicity. However, the large hydrocarbon portion indicates a significant hydrophobic character, which may hinder its solubility in aqueous solutions.
  • Solvent Influence: The solubility can greatly vary depending on the solvent used. Non-polar solvents like hexane or chloroform might dissolve this compound better than polar solvents like water.
  • Temperature Effects: Higher temperatures typically increase solubility for many organic compounds due to enhanced molecular movement, which could help in dissolving the compact structure of this compound.
  • Interaction with Other Solutes: In certain mixtures, the presence of other solutes can influence solubility. For example, adding surfactants might improve its solubility in water.

In conclusion, while predicting the exact solubility of such a complex molecule can be challenging due to its unique structure, it is likely to show limited solubility in polar solvents, while potentially being more soluble in organic and non-polar solvents. It is essential to conduct experimental solubility tests for accurate characterization.

Interesting facts

Interesting Facts about 9,30-Dioxa-11,25-diazapentacyclo[20.6.2.28,11.010,15.025,29]dotriacontan-1-ol

9,30-dioxa-11,25-diazapentacyclo[20.6.2.28,11.010,15.025,29]dotriacontan-1-ol is a fascinating compound that showcases the intricate world of organic chemistry. Here are some highlights:

  • Structural Complexity: This compound features a unique polycyclic structure, comprising several interconnected rings, which is not only a testament to the versatility of organic synthesis but also makes it particularly interesting for studies focusing on stereochemistry and molecular interactions.
  • Functional Groups: The presence of multiple oxygen and nitrogen atoms contributes to its diverse reactivity and potential applications in various fields, including medicinal chemistry and material science.
  • Synthetic Challenge: The synthesis of such complex molecules often requires advanced techniques in organic chemistry, such as multi-step synthesis and the use of protecting groups, illustrating the ingenuity required to navigate these chemical pathways.
  • Potential Applications: Compounds like this one may hold promise as pharmaceuticals, particularly in developing new drugs. They could also be explored for their properties in pharmaceuticals, polymers, and nanotechnology.
  • Research Interest: Chemists are particularly drawn to compounds with unusual frameworks, as they can lead to the discovery of novel chemical properties and biological activities.

In summary, 9,30-dioxa-11,25-diazapentacyclo[20.6.2.28,11.010,15.025,29]dotriacontan-1-ol serves as a remarkable example of how intricate organic compounds can push the boundaries of chemical understanding and application. As research continues, such compounds may reveal new insights into uncharted territories of chemical access and function.

Synonyms
Demethylxestospongine B
144789-03-7
9,30-dioxa-11,25-diazapentacyclo[20.6.2.28,11.010,15.025,29]dotriacontan-1-ol
5H,17H-1,23:11,13-Diethano-2H,14H-(1,11)dioxacycloeicosino(2,3-b:12,13-b')dipyridin-4a(24aH)-ol, octadecahydro-, (4aS-(4aR*,11R*,12aS*,16aS*,23R*,24aS*))-
octadecahydro-2h,5h,12ah,14h-1,23:11,13-diethano[1,11]dioxacycloicosino[10,9-b:20,19-b']dipyridin-4a(24ah)-ol
DTXSID50932408