Pentatriaconta-20,31-dien-2,4,22,34-tetrayne-1,6,33-triol

Identification

Molecular formula

C₃₅H₁₆O₃

CAS number

27305-98-8

IUPAC name

pentatriaconta-20,31-dien-2,4,22,34-tetrayne-1,6,33-triol

State

At room temperature, Pentatriaconta-20,31-dien-2,4,22,34-tetrayne-1,6,33-triol is solid. Its complex structure results in a robust solid form with potential slight variations in texture depending on the specific purity and conditions.

Melting point (Celsius)

175.36

Melting point (Kelvin)

448.51

Boiling point (Celsius)

118.82

Boiling point (Kelvin)

391.97

General information

Molecular weight

514.69g/mol

Molar mass

514.6880g/mol

Density

0.9721g/cm³

Appearence

Pentatriaconta-20,31-dien-2,4,22,34-tetrayne-1,6,33-triol typically appears as a crystalline solid. The compound is complex with multiple double and triple bonds, giving it a unique structural configuration. It may appear as a white or slightly off-white powder that may clump together.

Comment on solubility

Solubility of Pentatriaconta-20,31-dien-2,4,22,34-tetrayne-1,6,33-triol

The compound pentatriaconta-20,31-dien-2,4,22,34-tetrayne-1,6,33-triol, with the chemical formula C₃₅H₁₆O₃, presents a unique solubility profile due to its large carbon backbone coupled with functional hydroxyl groups. Here are some key points regarding its solubility characteristics:

Polarity: The presence of three hydroxyl (–OH) groups enhances the polarity of the molecule, likely improving its solubility in polar solvents.
Hydrogen Bonding: These functional groups can engage in hydrogen bonding, which is crucial for interactions with solvents such as water and alcohols.
Solvent Compatibility: It is anticipated that pentatriaconta-20,31-dien-2,4,22,34-tetrayne-1,6,33-triol would be more soluble in polar solvents (e.g., water, methanol) compared to non-polar solvents due to its functional groups.
Chain Length: The long carbon chain might impose some limitations on solubility in highly polar media, suggesting that it might also show moderate solubility in less polar organic solvents.

In conclusion, while the intricate structure of this compound suggests enhanced solubility in polar environments, the balance between hydrophobic carbon chains and hydrophilic functional groups creates a complex dissolution behavior. Further investigation through empirical testing would provide definitive solubility data.

Interesting facts

Understanding Pentatriaconta-20,31-dien-2,4,22,34-tetrayne-1,6,33-triol

Pentatriaconta-20,31-dien-2,4,22,34-tetrayne-1,6,33-triol is a complex organic compound that showcases the fascinating world of organic chemistry, particularly in the field of polyynes and their derivatives. Here are some compelling insights into this intriguing compound:

Structural Complexity: The name itself reveals an intricate structure with multiple double and triple bonds, signifying its classification as a polyene and a polyyne. The presence of several unsaturated bonds contributes to its unique chemical properties.
Functional Groups: The compound contains hydroxyl (-OH) functional groups, making it a triol. Triols can exhibit significant reactivity and can be pivotal in various chemical reactions, especially in the synthesis of more complex molecules.
Applications: Compounds with similar structures have been studied for their potential in materials science and organic electronics. Their unique electron properties may lead to applications in high-tech industries, such as sensors and photovoltaic materials.
Biological Implications: While the exact biological roles of such high-order polyynes are still being explored, they may exhibit interesting properties that could have implications in pharmacology and biochemistry.
Historical Context: Polyynes have sparked interest since the late 20th century due to their unique bonding arrangements and potential applications. This compound is a testament to the evolving understanding and exploration of complex organic molecules.

As we delve deeper into compounds like pentatriaconta-20,31-dien-2,4,22,34-tetrayne-1,6,33-triol, it becomes clear that organic chemistry offers endless possibilities for discovery and innovation.