Interesting facts
Interesting Facts About 13,27-Dimethoxy-7,22-dimethyl-15,29,31-trioxa-7,22-diazaoctacyclo[19.9.3.216,19.14,30.110,14.03,8.025,33.028,32]heptatriaconta-1(30),2,4(34),10(37),11,13,16,18,25,27,32,35-dodecaene
This complex organic compound is an example of the fascinating world of synthetic and structural chemistry. Here are some captivating aspects of this molecule:
- Structural Complexity: The intricate arrangement reflects a high degree of symmetry and multiple functional groups, showcasing the diversity of chemical bonding and architecture.
- Applications in Research: Due to its unique structure, this compound can serve as a model for studying interactions in organic chemistry, specifically in the fields of supramolecular chemistry and material science.
- Potential Biological Activity: Compounds with complex ring structures are often explored for their potential biological activities, which may include antimicrobial or antiviral properties, making them interesting candidates for pharmaceutical applications.
- Dimethoxy Groups: The presence of dimethoxy groups is notable as these can influence the compound's reactivity and solubility, which are critical parameters during experimental work.
- Diaza Framework: The incorporation of nitrogen atoms within the cyclic structure adds another layer of chemical behavior, offering potential sites for coordination with metal ions, thus providing avenues for catalytic applications.
- Historical Context: Studying such compounds can help chemists understand the evolution of synthetic routes and the historical development of organic synthesis techniques over time.
This compound, with its intricate formula, reflects the beauty and complexity found in the world of chemistry, where even one molecule can lead to vast scientific exploration and innovation.
Synonyms
DTXSID90949070
6,12'-dimethoxy-2,2'-dimethyl-6',7-epoxyoxyacanthan
13,27-dimethoxy-7,22-dimethyl-15,29,31-trioxa-7,22-diazaoctacyclo(19.9.3.216,19.14,30.110,14.03,8.025,33.028,32)heptatriaconta-1(30),2,4(34),10(37),11,13,16,18,25,27,32,35-dodecaene
13,27-dimethoxy-7,22-dimethyl-15,29,31-trioxa-7,22-diazaoctacyclo[19.9.3.216,19.14,30.110,14.03,8.025,33.028,32]heptatriaconta-1(30),2,4(34),10(37),11,13,16,18,25,27,32,35-dodecaene
RefChem:305956
DTXCID901377273
Solubility of 13,27-dimethoxy-7,22-dimethyl-15,29,31-trioxa-7,22-diazaoctacyclo[19.9.3.216,19.14,30.110,14.03,8.025,33.028,32]heptatriaconta-1(30),2,4(34),10(37),11,13,16,18,25,27,32,35-dodecaene
The solubility of complex organic compounds like 13,27-dimethoxy-7,22-dimethyl-15,29,31-trioxa-7,22-diazaoctacyclo[19.9.3.216,19.14,30.110,14.03,8.025,33.028,32]heptatriaconta-1(30),2,4(34),10(37),11,13,16,18,25,27,32,35-dodecaene is often influenced by several factors:
It's crucial to note that the solubility behavior of such a sophisticated molecule can vary significantly based on the medium used for dissolution. As with many specialized organic compounds, empirical testing using a variety of solvents is often essential to determine practical solubility.
In summary, the solubility of 13,27-dimethoxy-7,22-dimethyl-15,29,31-trioxa-7,22-diazaoctacyclo[19.9.3.216,19.14,30.110,14.03,8.025,33.028,32]heptatriaconta-1(30),2,4(34),10(37),11,13,16,18,25,27,32,35-dodecaene is likely to be affected by its unique structural features and functional groups, making it a subject for detailed solubility studies.