Ryecilide A

Identification

Molecular formula

C₄₈H₇₂O₁₄

CAS number

1705676-76-4

IUPAC name

37-hydroxy-6,16,19,26,28,36,50-heptamethyl-39-(2-methylallyl)-4,9,13,18,22,27,31,35,40,44,47,51-dodecaoxadodecacyclo[26.23.0.03,26.05,23.08,21.010,19.012,17.030,50.032,45.034,43.036,41.046,48]henpentacont-15-en-14-one

State

At room temperature, Ryecilide A is generally a solid. It remains stable under standard atmospheric conditions and exhibits typical properties of aromatic macrocyclic compounds.

Melting point (Celsius)

200.00

Melting point (Kelvin)

473.15

Boiling point (Celsius)

430.00

Boiling point (Kelvin)

703.15

General information

Molecular weight

1080.36g/mol

Molar mass

1 080.3630g/mol

Density

1.2500g/cm³

Appearence

Ryecilide A is typically a solid compound. Its color and granular properties are not well-documented but are inferred to be characteristic of other macrocyclic lactones, which often appear as white to off-white powders.

Comment on solubility

Solubility of 37-hydroxy-6,16,19,26,28,36,50-heptamethyl-39-(2-methylallyl)-4,9,13,18,22,27,31,35,40,44,47,51-dodecaoxadodecacyclo[26.23.0.03,26.05,23.08,21.010,19.012,17.030,50.032,45.034,43.036,41.046,48]henpentacont-15-en-14-one (C₄₈H₇₂O₁₄)

The solubility of 37-hydroxy-6,16,19,26,28,36,50-heptamethyl-39-(2-methylallyl)-4,9,13,18,22,27,31,35,40,44,47,51-dodecaoxadodecacyclo[26.23.0.03,26.05,23.08,21.010,19.012,17.030,50.032,45.034,43.036,41.046,48]henpentacont-15-en-14-one is a complex topic due to its intricate structure and high molecular weight. Solubility can significantly influence its practical applications, making this a key aspect to explore.

Key Factors Affecting Solubility:

Molecular Structure: The extensive substitution and large hydrophobic portions may limit solubility in polar solvents, while enhancing it in non-polar solvents.
Polarity: A balance between hydrophilic (water-attracting) and hydrophobic (water-repelling) regions plays a crucial role. The presence of multiple hydroxy groups enhances potential solubility in polar solvents.
Temperature: Solubility tends to increase with temperature for many compounds; however, this can vary depending on the specific interactions present.
Concentration: High concentrations of profoundly hydrophobic compounds can lead to precipitation rather than maintaining a dissolved state.

In conclusion, the solubility of C₄₈H₇₂O₁₄ remains a challenging aspect to definitively quantify without empirical data. It undoubtedly exhibits varied solubility characteristics that depend on the surrounding environment, leading to potential uses in various chemical applications depending on the solvent selected. Further investigation into its solubility profile is essential for unlocking its full potential.

Interesting facts

Exploring the Unique Compound: 37-Hydroxy-6,16,19,26,28,36,50-heptamethyl-39-(2-methylallyl)-4,9,13,18,22,27,31,35,40,44,47,51-dodecaoxadodecacyclo[26.23.0.03,26.05,23.08,21.010,19.012,17.030,50.032,45.034,43.036,41.046,48]henpentacont-15-en-14-one

This extraordinarily long-named compound is a fascinating example of complex molecular architecture found in organic chemistry. Not only does it feature an intricate arrangement of carbon and oxygen atoms, but it also showcases a high degree of stereochemistry.

Key Features

Hydroxyl Group: The presence of a hydroxyl (-OH) group at position 37 provides unique reactivity, making it an essential feature for various chemical transformations.
Multi-Cyclization: This compound contains numerous cyclic structures, indicative of its potential for various applications in materials science and pharmaceuticals.
Potential Biological Activity: Compounds of this nature often possess bioactive properties due to their complex structures, opening the door for research in drug discovery.
Polymerization Ability: The dodecaoxadodecacyclo configuration hints that it might participate in unique polymerization processes, making it valuable for synthesizing novel materials.

Researchers are particularly intrigued by compounds like this due to their potential applications in nanotechnology, bioengineering, and even as catalysts in various chemical reactions. As a chemistry student delves into the synthesis and reactivity of such complex molecules, they encounter the elegance of molecular design and the challenge of managing multiple reaction pathways.

In words of renowned chemist Linus Pauling, "The best way to have a good idea is to have a lot of ideas." This compound embodies an exciting nexus of chemical creativity where complexity leads to novelty.

This compound exemplifies the richness of chemical diversity and invites continued exploration into the realms of organic chemistry!

Solubility of 37-hydroxy-6,16,19,26,28,36,50-heptamethyl-39-(2-methylallyl)-4,9,13,18,22,27,31,35,40,44,47,51-dodecaoxadodecacyclo[26.23.0.03,26.05,23.08,21.010,19.012,17.030,50.032,45.034,43.036,41.046,48]henpentacont-15-en-14-one (C48H72O14)

Key Factors Affecting Solubility:

Exploring the Unique Compound: 37-Hydroxy-6,16,19,26,28,36,50-heptamethyl-39-(2-methylallyl)-4,9,13,18,22,27,31,35,40,44,47,51-dodecaoxadodecacyclo[26.23.0.03,26.05,23.08,21.010,19.012,17.030,50.032,45.034,43.036,41.046,48]henpentacont-15-en-14-one

Key Features

Solubility of 37-hydroxy-6,16,19,26,28,36,50-heptamethyl-39-(2-methylallyl)-4,9,13,18,22,27,31,35,40,44,47,51-dodecaoxadodecacyclo[26.23.0.03,26.05,23.08,21.010,19.012,17.030,50.032,45.034,43.036,41.046,48]henpentacont-15-en-14-one (C₄₈H₇₂O₁₄)