Skip to main content

Bicyclo[3.1.0]hexane

ADVERTISEMENT
Identification
Molecular formula
C7H10
CAS number
286-08-8
IUPAC name
tricyclo[4.1.0.02,7]heptane
State
State

This compound is in a liquid state at room temperature.

Melting point (Celsius)
-80.00
Melting point (Kelvin)
193.15
Boiling point (Celsius)
75.00
Boiling point (Kelvin)
348.15
General information
Molecular weight
82.15g/mol
Molar mass
82.1460g/mol
Density
0.7600g/cm3
Appearence

Bicyclo[3.1.0]hexane is a clear, colorless liquid.

Comment on solubility

Solubility of Tricyclo[4.1.0.02,7]heptane

Tricyclo[4.1.0.02,7]heptane, a fascinating compound, presents unique solubility characteristics that are worth exploring. Understanding its solubility helps in various applications, particularly in organic chemistry and material science.

Key Solubility Insights:

  • Polarity: The compound exhibits a low polarity due to its highly cyclic structure, which affects its interaction with solvents.
  • Hydrocarbon Nature: Being predominantly hydrocarbon, tricyclo[4.1.0.02,7]heptane is expected to show solubility in non-polar solvents.
  • Aqueous Solubility: It is likely to be insoluble or poorly soluble in water, given its structure devoid of polar functional groups.
  • Hydrocarbon Solvents: Compatibility with solvents such as hexane and benzene makes it easier for tricyclo[4.1.0.02,7]heptane to dissolve effectively.

In summary, tricyclo[4.1.0.02,7]heptane's solubility behavior illustrates the profound impact of molecular structure on solvent interactions. For practical use, it is often recommended to utilize non-polar solvents to achieve better dissolution.

Interesting facts

Interesting Facts about Tricyclo[4.1.0.02,7]heptane

Tricyclo[4.1.0.02,7]heptane, often referred to as “tricycloheptane,” is a fascinating compound within the realm of organic chemistry. Its unique structure makes it a subject of interest for chemical research and applications in various fields. Here are some intriguing facts about this compound:

  • Complex Structure: The molecular architecture of tricycloheptane showcases three interconnected cyclopentane rings. This tricyclic system imparts distinct properties and dynamics compared to simpler hydrocarbons.
  • Geometrical Constraints: Due to its constrained geometry, tricycloheptane exhibits unusual strain, influencing its reactivity and stability. This strain is a point of study for understanding strain energy in cyclic compounds.
  • Historical Significance: Its discovery and characterization played a role in developing a deeper understanding of polycyclic compounds in the mid-20th century, serving as a benchmark for theoretical and experimental chemists.
  • Applications in Research: Tricycloheptane's framework is utilized in various synthetic methodologies, acting as a precursor or intermediate in the development of more complex organic molecules, especially in the field of pharmaceuticals.
  • Comparative Chemistry: Comparative studies of tricycloheptane and other similar compounds often yield insights into the effects of molecular strain on reactions, making it a valuable compound for academic research.

As a model compound, tricyclo[4.1.0.02,7]heptane also serves as an excellent example of how structural intricacies can lead to diverse properties. The exploration of tricyclic compounds continues to unveil possibilities for innovative applications and deeper chemical understanding.

Synonyms
TRICYCLO(4.1.0.02,7)HEPTANE
Tricyclo[4.1.0.0(2,7)]heptane
287-13-8
Tricyclo[4.1.0.02,7]heptane
Tricyclo[3.1.1.0(6,7)]heptane
DTXSID50182860
HTEFASNITGSEJD-UHFFFAOYSA-N
Tricyclo[4.1.0.0<2,7>]heptane