Interesting facts
Interesting Facts about 16-acetyl-9-chloro-2,17-dimethyl-hexacyclo[9.8.0.02,8.03,5.012,17.014,16]nonadeca-7,9-dien-6-one
This intriguing compound belongs to a class of organic molecules characterized by its complex cycloalkane structure. Here are some fascinating details that highlight its importance in the field of chemistry:
- Unique Structure: The hexacyclo structure of this compound offers a unique blend of rings that can exhibit various chemical properties and reactivity patterns, making it an interesting subject for research.
- Biological Relevance: Compounds like this are often studied for their potential biological activities, including antimicrobial and anticancer properties, given the presence of various functional groups.
- Synthetic Chemistry: The synthesis of such complex molecules can involve a multi-step process, showcasing the creativity and precision of synthetic chemists. Techniques such as cyclization and chlorination play crucial roles in its formation.
- Potential Applications: Due to its unique structural features, this compound could have significant applications in pharmaceuticals and materials science, particularly in the design of novel drugs or advanced materials.
- Research Opportunities: The study of similar compounds opens up avenues for research in areas like medicinal chemistry, where understanding structure-activity relationships can lead to the development of new therapeutic agents.
A quote from a famous chemist: "The beauty of chemistry lies in the diversity of structures and reactions that nature offers us." This compound epitomizes that beauty, exemplifying the complexity and elegance inherent in organic chemistry.
Conclusion: In summary, the compound 16-acetyl-9-chloro-2,17-dimethyl-hexacyclo[9.8.0.02,8.03,5.012,17.014,16]nonadeca-7,9-dien-6-one stands as a testament to the remarkable possibilities found in chemical synthesis and its potential implications for science and industry.
Synonyms
orb2815619
DTXSID00864881
NS00126143
5b-Acetyl-9-chloro-3b,5a-dimethyl-2a,3,3a,3b,3c,4,5,5a,5b,6,6a,7,7a,7b-tetradecahydro-2H-cyclopropa[3,4]cyclopenta[1,2-a]cyclopropa[g]phenanthren-2-one
Solubility Overview of 16-acetyl-9-chloro-2,17-dimethyl-hexacyclo[9.8.0.02,8.03,5.012,17.014,16]nonadeca-7,9-dien-6-one
The solubility of 16-acetyl-9-chloro-2,17-dimethyl-hexacyclo[9.8.0.02,8.03,5.012,17.014,16]nonadeca-7,9-dien-6-one can be quite intricate due to its complex structure and distinct functional groups. As a general rule, key factors influencing solubility include:
Moreover, it’s essential to note that with a complex cyclic structure, solubility may exhibit specific behavior depending on the solvent used. Common solvents for structural analysis or dissolution may include organic solvents such as dimethyl sulfoxide (DMSO) or acetonitrile.
The compound's solubility profile can be determined experimentally, and caution should be exercised in anticipation of variable solubility characteristics in different solvents. As a guideline:
In summary, while predicting the exact solubility behavior requires empirical testing, understanding the underlying principles can guide preliminary assessments of 16-acetyl-9-chloro-2,17-dimethyl-hexacyclo[9.8.0.02,8.03,5.012,17.014,16]nonadeca-7,9-dien-6-one's solubility characteristics.