Cubane | Solubility of Things

Identification

Molecular formula

C₈H₈

CAS number

277-10-1

IUPAC name

heptacyclo[14.6.2.22,5.03,12.04,9.013,23.020,24]hexacosa-1,3(12),4,6,8,10,13(23),14,16,18,20(24),21,25-tridecaene

State

At room temperature, cubane is a solid. Its stability and solid state arise from its symmetrically rigid cubic structure. This makes it a subject of interest in both theoretical and applied chemistry.

Melting point (Celsius)

131.00

Melting point (Kelvin)

404.15

Boiling point (Celsius)

200.00

Boiling point (Kelvin)

473.15

General information

Molecular weight

104.15g/mol

Molar mass

104.1490g/mol

Density

1.2900g/cm³

Appearence

Cubane appears as a white crystalline solid. It is noted for its cubic molecular structure, which is quite rare in organic chemical compounds. The structure contributes to its high density and distinct appearance compared to other hydrocarbons of similar molar mass.

Comment on solubility

Solubility of Heptacyclo[14.6.2.22,5.03,12.04,9.013,23.020,24]hexacosa-1,3(12),4,6,8,10,13(23),14,16,18,20(24),21,25-tridecaene

Heptacyclo[14.6.2.22,5.03,12.04,9.013,23.020,24]hexacosa-1,3(12),4,6,8,10,13(23),14,16,18,20(24),21,25-tridecaene presents a unique case when discussing its solubility characteristics. This complex polycyclic compound exhibits the following solubility traits:

Insolubility in Water: Like many polycyclic hydrocarbons, this molecule is expected to be insoluble in water due to its extensive non-polar structure, making it difficult for water molecules to interact with the compound.
Solubility in Organic Solvents: It is likely to be soluble in non-polar organic solvents such as hexane, toluene, or benzene. This is indicative of its hydrophobic nature, which promotes dissolution in similar non-polar environments.
Temperature Dependence: The solubility may vary with temperature, as is common with organic substances; thus, higher temperatures could improve its solubility in organic solvents.
Potential for Complexation: In some cases, interactions with polar solvents could enhance solubility through complexation, although this would depend heavily on the presence of specific functional groups that may not be typical for this compound.

In essence, the solubility of Heptacyclo[14.6.2.22,5.03,12.04,9.013,23.020,24]hexacosa-1,3(12),4,6,8,10,13(23),14,16,18,20(24),21,25-tridecaene illustrates important principles of solubility, particularly the significance of molecular structure in determining hydrophobic and hydrophilic properties.

Interesting facts

Interesting Facts about Heptacyclo[14.6.2.22,5.03,12.04,9.013,23.020,24]hexacosa-1,3(12),4,6,8,10,13(23),14,16,18,20(24),21,25-tridecaene

Heptacyclo[14.6.2.22,5.03,12.04,9.013,23.020,24]hexacosa-1,3(12),4,6,8,10,13(23),14,16,18,20(24),21,25-tridecaene is a fascinating and complex organic compound, characterized by a unique structure composed of *multiple interconnected rings*. Here are some interesting facts about this intriguing chemical:

Structural Complexity: This compound has a *high degree of molecular complexity* with a total of 14 rings containing various unsaturation points, demonstrating the fascinating possibilities in molecular architecture.
Polycyclic Aromatic Hydrocarbons (PAHs): As part of the larger family of PAHs, its structure contributes to studies in *materials science* and *organic solar cells*, where unique electronic properties are vital.
Thermodynamic Stability: The unique arrangement of ring systems affects its *stability and reactivity*, making it a subject of interest in understanding thermodynamic properties of complex molecules.
Applications in Nanotechnology: Due to its complex structure and potential electronic properties, researchers are exploring its use in *nanotechnology*, particularly in molecular devices and sensors.
Synthesis Challenges: The synthesis of such intricate compounds often presents significant challenges, pushing the boundaries of *organic synthesis techniques*, and often requiring innovative strategies to construct these multi-cyclic structures.

This compound invites further exploration not only because of its unique characteristics but also due to its potential applications in various fields, including *pharmaceuticals*, *material sciences*, and *organic electronics*. As existing methods for the synthesis of complex organic compounds continue to advance, the study of heptacyclo[14.6.2.22,5.03,12.04,9.013,23.020,24]hexacosa-1,3(12),4,6,8,10,13(23),14,16,18,20(24),21,25-tridecaene offers a glimpse into the exciting future of advanced molecular research.

Synonyms

Peropyrene

DIBENZO(cd,lm)PERYLENE

Peropyren

188-96-5

Dibenzo[cd,lm]perylene

BRN 1987513

DTXSID50172140

4-05-00-02865 (Beilstein Handbook Reference)

heptacyclo[14.6.2.22,5.03,12.04,9.013,23.020,24]hexacosa-1,3(12),4,6,8,10,13(23),14,16,18,20(24),21,25-tridecaene

DTXCID2094631

WCXXBFNWCCIYQO-UHFFFAOYSA-N

C26H14

DB-220321