Ethyl dichloroarsine | Solubility of Things

Identification

Molecular formula

C₂H₅AsCl₂

CAS number

598-14-1

IUPAC name

dichloro(ethyl)arsane

State

At room temperature, ethyl dichloroarsine is typically a liquid. It is volatile with a distinct odor.

Melting point (Celsius)

-6.00

Melting point (Kelvin)

267.15

Boiling point (Celsius)

159.00

Boiling point (Kelvin)

432.15

General information

Molecular weight

159.93g/mol

Molar mass

159.9300g/mol

Density

1.6400g/cm³

Appearence

Ethyl dichloroarsine is a clear, colorless to slightly yellow liquid.

Comment on solubility

Solubility of Dichloro(ethyl)arsane

Dichloro(ethyl)arsane, with the chemical formula C₂H₆Cl₂As, presents intriguing characteristics regarding its solubility. This organoarsenic compound is largely influenced by the following factors:

Polarity: The presence of chlorine atoms contributes significantly to the overall polarity of the molecule, affecting its interactions with solvents.
Medium: Dichloro(ethyl)arsane is primarily soluble in organic solvents such as ethanol and acetone, while showing limited solubility in water due to its hydrophobic ethyl group.
Temperature: Solubility can increase with temperature, making it more viable in thermally active scenarios.

Due to these characteristics, it is often noted that the solubility in laboratory settings can be summarized as:

High solubility in non-polar organic solvents
Low solubility in polar solvents like water

Understanding these solubility properties is crucial for effective usage and handling of dichloro(ethyl)arsane, as they can guide researchers in selecting appropriate solvents for reactions or extractions.

Interesting facts

Interesting Facts About Dichloro(ethyl)arsane

Dichloro(ethyl)arsane is a fascinating compound that falls under the category of organoarsenic compounds. As a student of chemistry, exploring this compound can reveal a wealth of intriguing aspects:

Compound Structure: The structure of dichloro(ethyl)arsane features a central arsenic atom bonded to two chlorine atoms and an ethyl group. Arsenic, a metalloid, can form various organic compounds, showcasing its diverse chemistry.
Reactivity: The dichloro substitution in this compound makes it quite reactive. It can participate in various chemical reactions, including nucleophilic substitutions and reductions, attracting interest for research and applications.
Biological Significance: Compounds like dichloro(ethyl)arsane are studied for their potential biological effects. Arsenic compounds are renowned for their toxicity, and understanding their behavior in biological systems is crucial for environmental and health safety.
Historical Context: Arsenic has a long history, often associated with poison and intrigue. Investigating compounds like dichloro(ethyl)arsane allows scientists to bridge historical knowledge with modern-day applications and safety considerations.

In summary, dichloro(ethyl)arsane stands as a compelling subject in the realm of organic chemistry, providing insights into the interplay between structure, reactivity, and biological implications. As we delve deeper into the chemistry of arsenic compounds, we uncover important lessons in both scientific inquiry and environmental responsibility.

Synonyms

ETHYLDICHLOROARSINE

Dichloroethylarsine

Ethyldichlorarsine

dichloro(ethyl)arsane

Dichloro(ethyl)arsine

Arsenic dichloroethane

Arsine, dichloroethyl-

Ethylarsonous dichloride

598-14-1

Arsonous dichloride, ethyl-

Ethyl dichloroarsine

TL 214

HSDB 424

Arsonous dichloride, As-ethyl-

EINECS 209-919-3

UN1892

BRN 1731722

4Z7627500U

DTXSID6060505

ETHYLDICHLOROARSINE [HSDB]

Arsine, dichloroethyl

ETHYLIDICHLORARSINE

Arsonous dichloride, ethyl

DTXCID2042698

209-919-3

Dick

DICK [German]

Dick (german)

Ethyldichlorarsin

UNII-4Z7627500U

SCHEMBL563433

UN 1892

Ethyldichloroarsine [UN1892] [Poison]

DB-220333

NS00080285

Q2630492