Interesting facts
Interesting Facts about Hexacyclo[10.10.2.02,7.08,24.015,23.017,22]tetracosa-1(22),2,4,6,8,10,12(24),13,15(23),16,18,20-dodecaene-21-carbaldehyde
This fascinating compound represents an intricate and complex structure that showcases the beauty of organic chemistry. Here are some engaging insights about this unique molecule:
- Complexity: The compound features a remarkable framework, with a total of 22 carbon atoms arranged in a highly specific manner. Its intricate connectivity highlights the challenges and creativity involved in modern synthetic chemistry.
- Biological Potential: Compounds like this have been the subject of research due to their potential biological activities. Molecules with such frameworks may exhibit interesting pharmacological properties, possibly serving as leads for drug development.
- Applications in Materials Science: Due to its unique structural characteristics, this compound could have implications in materials science, particularly in the fabrication of advanced polymers or nanostructures. The modular nature of the structure allows for potential customization and application in various fields.
- Topology and Geometry: The careful arrangement of atoms and the cycloaliphatic nature of the compound provide an excellent case study for chemists interested in topology and molecular geometry, resulting in interesting discussions on stability and reactivity.
- Synthetic Challenges: The construction of such a compound is no simple feat. It often requires advanced synthetic techniques and strategies. Chemists engaged in this field must creatively employ methodologies such as ring-closing reactions and functional group transformations.
- Inspiring Future Research: The study and synthesis of this compound contribute to a deeper understanding of complex organic molecules, inspiring future research into untapped territories of chemical compounds and their potential uses.
In summary, hexacyclo[10.10.2.02,7.08,24.015,23.017,22]tetracosa-1(22),2,4,6,8,10,12(24),13,15(23),16,18,20-dodecaene-21-carbaldehyde stands as a testament to the complexities and possibilities within organic chemistry. As scientists continue to explore such compounds, they unlock not only new materials but also novel applications that can shape various industries.
Synonyms
2869-59-2
BRN 1996013
DIBENZO(def,p)CHRYSENE-10-CARBOXALDEHYDE
5-Formyl-1,2:3,4-dibenzopyrene
DTXSID20951348
Naphtho[1,2,3,4-pqr]tetraphene-14-carbaldehyde
Solubility of hexacyclo[10.10.2.02,7.08,24.015,23.017,22]tetracosa-1(22),2,4,6,8,10,12(24),13,15(23),16,18,20-dodecaene-21-carbaldehyde
The solubility of hexacyclo[10.10.2.02,7.08,24.015,23.017,22]tetracosa-1(22),2,4,6,8,10,12(24),13,15(23),16,18,20-dodecaene-21-carbaldehyde is a fascinating topic due to the complexity of its structure. This compound is a polycyclic compound with a high molecular weight, which often influences its solubility characteristics.
When considering the solubility of such compounds, several factors come into play:
"Like dissolves like." This principle is particularly relevant here; the structural hydrophobicity suggests that the compound may readily dissolve in nonpolar organic solvents such as hexane or toluene, while it may struggle in polar solvents.
In summary, hexacyclo[10.10.2.02,7.08,24.015,23.017,22]tetracosa-1(22),2,4,6,8,10,12(24),13,15(23),16,18,20-dodecaene-21-carbaldehyde is likely to be sparingly soluble in polar solvents and more soluble in nonpolar organic media, making it essential to select the correct solvent for its use in various applications.