Interesting facts
Interesting Facts about 8,22-Diisobutyl-4,18-Dimethyl-3,17-Dioxa-10,24,30,31-Tetrathia-7,14,21,28,33,34,35,36-Octazahexacyclo[13.13.4.12,5.19,12.116,19.123,26]Hexatriaconta-2(36),9(35),11,16(34),23(33),25-Hexaene-6,13,20,27-Tetrone
This compound boasts a highly complex structure and is a fascinating subject of study in the field of organic chemistry. Here are some engaging insights:
- Diverse Functional Groups: The inclusion of multiple functional groups like thioether and ketone highlights its potential reactivity and application in various chemical reactions.
- Structural Complexity: With an intricate arrangement involving 36 ring systems, this compound exemplifies the beauty and complexity of synthetic organic molecules.
- Application Potential: Complex compounds often find utility in materials science, potentially serving as building blocks for more intricate polymers or advanced materials due to their unique properties.
- Synthetic Interest: The creation of such a molecule could provide insights into synthetic methodologies and inspire future synthesis techniques within the chemistry community.
As with many complex organic molecules, the synthesis and study of this compound can reveal new relationships between structure and function, leading to intriguing discoveries in both fundamental and applied chemistry. Its unusual architecture can also be a valuable tool for chemists investigating molecular interactions or developing new therapeutic agents.
In essence, compounds like this not only enrich our understanding of chemical structure but also often pave the way for innovations in materials and medicinal chemistry.
Synonyms
Ulithiacyclamide
74847-09-9
4,18-Dimethyl-8,22-bis(2-methylpropyl)-3,17-dioxa-10,24,30,31-tetrathia-7,14,21,28,33,34,35,36-octazahexacyclo[13.13.4.12,5.19,12.116,19.123,26]hexatriaconta-2(36),9(35),11,16(34),23(33),25-hexaene-6,13,20,27-tetrone
DTXSID00996353
NSC348113
NSC 348113
NSC-348113
4,18-Dimethyl-8,22-bis(2-methylpropyl)-3,17-dioxa-10,24,30,31-tetrathia-7,14,21,28,33,34,35,36-octaazahexacyclo[13.13.4.1~2,5~.1~9,12~.1~16,19~.1~23,26~]hexatriaconta-2(36),6,9(35),11,13,16(34),20,23(33),25,27-decaene-6,13,20,27-tetrol
Solubility of 8,22-diisobutyl-4,18-dimethyl-3,17-dioxa-10,24,30,31-tetrathia-7,14,21,28,33,34,35,36-octazahexacyclo[13.13.4.12,5.19,12.116,19.123,26]hexatriaconta-2(36),9(35),11,16(34),23(33),25-hexaene-6,13,20,27-tetrone
The solubility of 8,22-diisobutyl-4,18-dimethyl-3,17-dioxa-10,24,30,31-tetrathia-7,14,21,28,33,34,35,36-octazahexacyclo[13.13.4.12,5.19,12.116,19.123,26]hexatriaconta-2(36),9(35),11,16(34),23(33),25-hexaene-6,13,20,27-tetrone in various solvents has not been extensively documented. However, several critical factors can influence its solubility:
To summarize, while specific solubility data might be limited, it is anticipated that:
Quote from solubility theory: "The likes dissolve the likes," meaning that similar polarities can enhance solubility interactions.
Further experimental studies would be essential to ascertain the precise solubility characteristics of this complex molecule.