Ethyl methoxyphenylarsine | Solubility of Things

Identification

Molecular formula

C₉H₁₃AsO

CAS number

60893-89-4

IUPAC name

ethyl-methoxy-phenyl-arsane

State

At room temperature, ethyl methoxyphenylarsine exists as a liquid. This state is typical for many lower molecular weight organoarsenic compounds, which often exhibit some level of volatility.

Melting point (Celsius)

-38.00

Melting point (Kelvin)

235.15

Boiling point (Celsius)

276.00

Boiling point (Kelvin)

549.15

General information

Molecular weight

214.09g/mol

Molar mass

214.0930g/mol

Density

1.2950g/cm³

Appearence

Ethyl methoxyphenylarsine is an organoarsenic compound that typically appears as a colorless to pale yellow liquid. Its appearance in this form is common among many related arsenic compounds, which also exhibit similar liquid characteristics at room temperature.

Comment on solubility

Solubility of Ethyl-Methoxy-Phenyl-Arsane

Ethyl-methoxy-phenyl-arsane, with a complex structure involving an arsenic atom bonded to an ethyl and a methoxy group, exhibits unique solubility characteristics. Understanding its solubility is vital for both practical applications and theoretical studies.

Key Aspects of Solubility

Polar vs. Nonpolar: The presence of the methoxy group introduces a degree of polarity. However, the overall structure remains largely hydrophobic due to the ethyl and phenyl groups.
Solvent Compatibility: Ethyl-methoxy-phenyl-arsane is likely to dissolve better in organic solvents (e.g., ethanol, acetone) compared to aqueous solutions due to its hydrophobic nature.
Temperature Influence: Solubility may increase with temperature, as many organic compounds dissolve better in warmer conditions.
Interaction with Ionic Substances: The compound may show limited solubility in ionic environments, as its nonpolar characteristics may resist the disruption of solvent cages formed around ions.

In summary, while ethyl-methoxy-phenyl-arsane may not be highly soluble in water, it is expected to have significant solubility in various organic solvents. This highlights the importance of choosing the correct solvent for applications involving this compound. As always, "the solubility profile is critical in assessing the chemical behavior and potential applications of the compound."

Interesting facts

Interesting Facts about Ethyl-Methoxy-Phenyl-Arsane

Ethyl-methoxy-phenyl-arsane is a fascinating organic compound that belongs to the class of arsenic-containing compounds. Although not as widely recognized as some other chemical compounds, it offers a variety of intriguing aspects from a scientific perspective:

Structure and Composition: This compound features an ethyl group and a methoxy group attached to a phenyl ring, along with an arsenic atom. The presence of arsenic introduces unique properties and reactivities that are of significant interest in the field of organometallic chemistry.
Potential Applications: Compounds like ethyl-methoxy-phenyl-arsane may find applications in organic synthesis and material science. Their reactivity can be harnessed to create more complex structures, which can be beneficial in drug development and coordination chemistry.
Environmental Concerns: Given that arsenic is a known toxic element, studying compounds such as this raises important environmental and health considerations. Understanding its behavior in biological systems is crucial for assessing potential risks associated with arsenic exposure.
Synthesis Pathways: The synthesis of ethyl-methoxy-phenyl-arsane involves intricate chemical reactions, highlighting the creativity and precision required in organic chemistry. Researchers often explore various methods to enhance yield and selectivity during the synthesis process.
Historical Context: Arsenic compounds have a long history, dating back to ancient times. They’ve been used in various fields, including agriculture, medicine, and even as pigments. The study of ethyl-methoxy-phenyl-arsane adds to this rich legacy with its unique properties.

As with many organoarsenic compounds, ongoing research continues to unveil the complexities of these materials. Scientists are continually exploring their potential while being mindful of their toxicological profiles. "The study of arsenic compounds provides both challenges and opportunities in modern chemistry."

Synonyms

METHYL ETHYLPHENYLARSINITE

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