Ammonium bis(2-chloro-1-heptenyl)hydroxyarsinate

Identification

Molecular formula

C₁₄H₃₁AsCl₂NO₂

CAS number

7446-70-0

IUPAC name

ammonium;2-chlorohept-1-enyl(hydroxy)arsinate

State

At room temperature, this compound is a solid. Its state can be affected by environmental factors such as humidity and temperature.

Melting point (Celsius)

78.00

Melting point (Kelvin)

351.15

Boiling point (Celsius)

193.00

Boiling point (Kelvin)

466.15

General information

Molecular weight

377.49g/mol

Molar mass

377.4860g/mol

Density

1.2500g/cm³

Appearence

The compound typically appears as a crystalline solid. This solid can have a white to off-white color and may exhibit a slight odor depending on its purity and storage conditions. It is not a common compound and may be synthesized for specific applications.

Comment on solubility

Solubility of Ammonium 2-Chlorohept-1-enyl(hydroxy)arsinate

Ammonium 2-chlorohept-1-enyl(hydroxy)arsinate, a compound derived from both ammonium and organoarsenic chemistry, exhibits unique solubility characteristics due to its complex structure. Understanding its solubility is crucial for applications in environmental and biological sciences.

Solubility Characteristics:

Solvent Dependence: Its solubility may significantly depend on the solvent used. Typically, such organoarsenic compounds tend to be more soluble in polar solvents like water due to the ammonium ion.
Temperature Variations: The solubility of this compound may increase with temperature, which is a common characteristic for many ionic compounds.
pH Sensitivity: Exposure to extreme pH levels can influence the solubility due to protonation or deprotonation of the functional groups present.
Complex Formation: The potential for complex formation with metal ions can also impact its solubility, sometimes leading to precipitation in different conditions.

In summary, the solubility of ammonium 2-chlorohept-1-enyl(hydroxy)arsinate varies based on several factors, making it essential to conduct specific experiments to determine its behavior in different environments. As with many compounds containing arsenic, proper handling and awareness of solubility in health-related contexts is crucial, considering the implications on toxicity and bioavailability.

Interesting facts

Interesting Facts About Ammonium 2-Chlorohept-1-enyl(Hydroxy)arsinate

Ammonium 2-chlorohept-1-enyl(hydroxy)arsinate is a fascinating compound that combines elements of both organic and inorganic chemistry. Here are some notable points about this unique chemical:

Chemical Nature: This compound features an ammonium cation, which is a positively charged ion derived from ammonia. Its presence adds to the compound's interesting properties.
Arsenic Connection: With arsenic as part of its structure, this compound is linked to a family of substances known for their practical applications as well as their toxicological concerns. Hence, understanding how ions interact in this compound could lead to major insights in both pharmaceutical chemistry and environmental science.
Chlorine Substitution: The inclusion of a chlorine atom gives this compound its unique reactivity and influences its biological activity, which is often explored in the study of herbicides and pesticides.
Hydroxy Group Impact: The hydroxy group (–OH) enhances the solubility of this compound in water and contributes to its potential use in biological systems and as a chelating agent.
Reactivity Potential: Due to its alkene functionality, the compound can participate in various chemical reactions, such as addition reactions, opening up avenues for future research in organic synthesis.

“A compound's properties stem not only from its individual components but also from the way they interact with each other.” This axiom rings true here, as the interactions between ammonium ions, the hydroxy group, and the chlorinated alkenyl moiety make for intriguing study cases.

Overall, ammonium 2-chlorohept-1-enyl(hydroxy)arsinate serves as a remarkable example of how synthetic organic compounds can be tailored for specific properties and functionalities. Its complex nature warrants further exploration in both basic and applied chemistry fields.

Synonyms

DTXSID101236366