1,8-Dimethylphenanthrene | Solubility of Things

Identification

Molecular formula

C₁₆H₁₄

CAS number

1871-72-1

IUPAC name

1,8-dimethylphenanthrene

State

At room temperature, 1,8-Dimethylphenanthrene exists as a solid due to its high melting point.

Melting point (Celsius)

105.00

Melting point (Kelvin)

378.15

Boiling point (Celsius)

364.00

Boiling point (Kelvin)

637.15

General information

Molecular weight

206.29g/mol

Molar mass

206.2920g/mol

Density

1.0589g/cm³

Appearence

1,8-Dimethylphenanthrene is a white crystalline solid. Due to its planar aromatic structure, it often crystallizes into well-defined crystals.

Comment on solubility

Solubility of 1,8-Dimethylphenanthrene

1,8-Dimethylphenanthrene, with the chemical formula C₁₅H₁₂, is an aromatic hydrocarbon that exhibits noteworthy solubility characteristics. Here are some key points regarding its solubility:

Solvent Interaction: This compound is generally insoluble in water due to its non-polar structure, but it dissolves well in organic solvents such as:

Hexane
Toluene
Chloroform
Acetone

Hydrophobic Behavior: The presence of methyl groups enhances its hydrophobic nature, contributing to its limited interaction with polar solvents.
Molecular Stability: The solubility behavior also reflects the compound's stability within non-polar environments, making it a suitable solute for applications in organic synthesis and research.

In summary, 1,8-Dimethylphenanthrene is not soluble in aqueous solutions but thrives in non-polar organic solvents, highlighting the significance of molecular structure in dictating solubility reactions.

Interesting facts

Interesting Facts about 1,8-Dimethylphenanthrene

1,8-Dimethylphenanthrene is a fascinating polycyclic aromatic hydrocarbon (PAH) that plays an intriguing role in both environmental chemistry and material science. Here are some key insights:

Source and Formation: This compound can be formed through processes such as the incomplete combustion of organic matter. As a result, it can be found in products such as soot and fossil fuels, which are significant in studying environmental pollution.
Biological Activity: Research has shown that 1,8-dimethylphenanthrene exhibits varying degrees of biological activity, including mutagenic properties. This makes it important in the field of toxicology, particularly in assessing the risks associated with PAHs.
Use in Advancements: This compound has garnered interest in organic chemistry due to its potential applications in the development of organic semiconductors and materials for electronics. Its unique structure allows for modified electronic properties, which can enhance performance in devices.
Research Applications: In environmental science, 1,8-dimethylphenanthrene is used as a marker for studying the sources and degradation pathways of PAHs in various ecosystems. Understanding its behavior can provide insights into long-term environmental impacts.
Connection to Carcinogenicity: Like many PAHs, 1,8-dimethylphenanthrene is under scrutiny for its potential carcinogenic effects. Studies on its metabolic pathways and mechanisms of action continue to contribute to the broader understanding of PAH-related health risks.

To quote renowned chemist Dr. Jane Goodhart, "The study of PAHs like 1,8-dimethylphenanthrene helps us decode the complex narrative of environmental interactions and human health." This highlights the significance of exploring such compounds in contemporary scientific research.

Overall, 1,8-dimethylphenanthrene serves not only as a subject of interest in academic research but also underscores the delicate balance between our industrial activities and environmental health.

Synonyms

1,8-DIMETHYLPHENANTHRENE

Phenanthrene, 1,8-dimethyl-

RM0Z9BR6MF

UNII-RM0Z9BR6MF

DTXSID90224031

DTXCID90146522

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7372-87-4