Interesting facts
Interesting Facts About Undecacyclo[30.6.2.210,13.02,27.04,25.06,23.08,21.011,20.012,17.029,39.036,40]dotetraconta-1(39),2,4,6(23),7,9,11(20),12,14,16,18,21,24,26,28,30,32(40),33,35,37,41-henicosaene
Undecacyclo[30.6.2.210,13.02,27.04,25.06,23.08,21.011,20.012,17.029,39.036,40]dotetraconta-henicosaene is a fascinating compound that showcases the complexity and versatility of organic molecules. Here are some intriguing insights:
- Complex Structure: This compound possesses an intricate structure featuring a total of 41 carbon atoms arranged in a unique arrangement of cycles. Such complexity highlights the beauty of molecular architecture in organic chemistry.
- Polycyclic Nature: It belongs to a category of polycyclic compounds, which contain multiple interconnected carbon rings. Polycyclic compounds often exhibit unique properties due to their structural configurations.
- Potential Applications: While there might currently be limited applications known for this particular compound, polycyclic hydrocarbons are widely studied for their uses in materials science, organic electronics, and as precursors for various synthetic pathways.
- Research Interest: The intricate nature of undecacyclo compounds like this one piques the interest of chemists for research aimed at understanding the implications of structural complexity on reactivity and stability.
- Historical Context: The exploration of complex hydrocarbons has a rich history in chemistry, contributing to foundational discoveries in fields such as organic synthesis and crystallography.
As chemists delve deeper into the structural characteristics of such compounds, they may uncover novel properties that could lead to advancements in environmental science, renewable energy, and nanotechnology. It is a testament to the ever-expanding boundaries of chemical research and the continuous quest to innovate in various fields.
"The study of complex molecules is not merely an academic pursuit; it is a gateway to understanding the intricacies of nature and possibly paving the way for future technologies."
Synonyms
Dinaphtho(2,1,8-c,d,a:2',1',8'-nop)heptacene
190-09-0
Dinaphtho[2,1,8-c1d1a:2',1',8'-nop]heptacene
DTXSID50940528
Dinaphtho-[2,1,8-c,d,a:2',1',8'-nop]heptacene
Dinaphtho[2,1,8-nop:2',1',8'-c_1_d_1_a]heptacene
Solubility of Undecacyclo[30.6.2.210,13.02,27.04,25.06,23.08,21.011,20.012,17.029,39.036,40]dotetraconta-1(39),2,4,6(23),7,9,11(20),12,14,16,18,21,24,26,28,30,32(40),33,35,37,41-henicosaene
The solubility of undecacyclo[30.6.2.210,13.02,27.04,25.06,23.08,21.011,20.012,17.029,39.036,40]dotetraconta-1(39),2,4,6(23),7,9,11(20),12,14,16,18,21,24,26,28,30,32(40),33,35,37,41-henicosaene is an intriguing aspect due to its complex structure. Here are a few key points to consider regarding its solubility:
As a result, it is often stated that "the more complex the structure, the more complex the solubility behavior." Therefore, while undecacyclo[30.6.2.210,13.02,27.04,25.06,23.08,21.011,20.012,17.029,39.036,40]dotetraconta-1(39),2,4,6(23),7,9,11(20),12,14,16,18,21,24,26,28,30,32(40),33,35,37,41-henicosaene may be soluble in certain non-polar organic solvents, its overall solubility is notably restrained compared to smaller or more symmetrical compounds.