Interesting facts
Interesting Facts about Hexacyclo[13.6.2.02,10.04,9.012,22.019,23]tricosa-1(22),2(10),4,6,8,11,13,15(23),16,18,20-undecaen-3-one
Hexacyclo[13.6.2.02,10.04,9.012,22.019,23]tricosa-1(22),2(10),4,6,8,11,13,15(23),16,18,20-undecaen-3-one is a fascinating compound that belongs to the family of polycyclic compounds. Its intricate structure and unique properties make it a subject of interest among chemists and researchers alike. Here are some interesting aspects of this compound:
- Complexity of Structure: The name of the compound indicates its highly complex arrangement of atoms. With multiple rings and a plethora of double bonds, it exemplifies the beauty of organic chemistry where the arrangement of carbon atoms leads to myriad potential compounds.
- Applications in Materials Science: Compounds with such structures often exhibit unique properties, making them candidates for application in materials science. Their rigidity and stability could lend themselves to uses in nanotechnology or materials that require durable components.
- Potential Biological Activity: Polycyclic compounds are often investigated for their biological activity. Research into similar structures has led to the discovery of numerous pharmaceuticals. Investigating hexacyclo[13.6.2.02,10.04,9.012,22.019,23]tricosa-1(22),2(10),4,6,8,11,13,15(23),16,18,20-undecaen-3-one may reveal potential therapeutic properties.
- Historical Context: The study of such cycloaliphatic compounds has a rich history in organic chemistry, with advancements in synthesis techniques allowing chemists to create increasingly complex molecules. This compound is a product of that evolution.
- Analytical Techniques: The characterization of compounds like this often requires advanced techniques such as NMR (Nuclear Magnetic Resonance), MS (Mass Spectrometry), and IR (Infrared Spectroscopy). These tools help in elucidating the structure and confirming the presence of specific functional groups.
In summary, hexacyclo[13.6.2.02,10.04,9.012,22.019,23]tricosa-1(22),2(10),4,6,8,11,13,15(23),16,18,20-undecaen-3-one is more than just a mouthful of syllables; it is a gateway to exploring the complexities of organic compounds, their potentialApplications, and the methodology behind their study. As you continue your journey in chemistry, you may find similar compounds that inspire you just as much!
Synonyms
11H-INDENO(2,1-A)PYREN-11-ONE
7267-90-5
DTXSID40222981
DTXCID70145472
indeno[2,1-a]pyren-11-one
Solubility of hexacyclo[13.6.2.02,10.04,9.012,22.019,23]tricosa-1(22),2(10),4,6,8,11,13,15(23),16,18,20-undecaen-3-one
The solubility of hexacyclo[13.6.2.02,10.04,9.012,22.019,23]tricosa-1(22),2(10),4,6,8,11,13,15(23),16,18,20-undecaen-3-one in various solvents is an intriguing aspect of its chemical behavior. In general, the solubility of such complex organic compounds can be influenced by several factors:
It is expected that this compound, given its unique cyclic structure, may exhibit limited solubility in polar solvents while potentially being more soluble in non-polar organic solvents. As with many organic compounds, one might encounter solubility challenges, and empirical data would be necessary for definitive conclusions. Thus, solvent choice becomes crucial for applications involving hexacyclo[13.6.2.02,10.04,9.012,22.019,23]tricosa-1(22),2(10),4,6,8,11,13,15(23),16,18,20-undecaen-3-one.