Dichloro(3-nitrophenyl)arsane | Solubility of Things

Identification

Molecular formula

C₆H₅AsCl₂NO₂

CAS number

2491-88-9

IUPAC name

dichloro-(3-nitrophenyl)arsane

State

At room temperature, dichloro(3-nitrophenyl)arsane is typically found in a solid state.

Melting point (Celsius)

89.00

Melting point (Kelvin)

362.15

Boiling point (Celsius)

260.00

Boiling point (Kelvin)

533.15

General information

Molecular weight

284.90g/mol

Molar mass

284.8950g/mol

Density

1.7000g/cm³

Appearence

Dichloro(3-nitrophenyl)arsane is typically a colorless to pale yellow solid. It may appear as crystalline or amorphous depending on the form and purity of the compound.

Comment on solubility

Solubility of Dichloro-(3-nitrophenyl)arsane

Dichloro-(3-nitrophenyl)arsane, with its unique structure, presents interesting solubility characteristics that are worth exploring.

Solubility in Water: This compound is generally insoluble in water due to the presence of the bulky aromatic ring and the electron-withdrawing nitro group, which inhibit interaction with water molecules.
Organic Solvents: It exhibits a much higher solubility in organic solvents, such as:
- Dichloromethane
- Acetone
- Ethyl acetate
This is indicative of its non-polar or slightly polar nature, making it more amenable to dissolve in non-polar environments.
Temperature Effects: As with many organic compounds, an increase in temperature can enhance solubility in organic solvents, allowing for better dissolution.
Practical Implications: The solubility in organic solvents facilitates its use in various applications, such as:
- Synthesis processes
- Analytical chemistry assays

In summary, the solubility profile of dichloro-(3-nitrophenyl)arsane is dominated by its limited water solubility and greater affinity for organic solvents, which plays a crucial role in its application in chemical research and industry.

Interesting facts

Interesting Facts about Dichloro-(3-nitrophenyl)arsane

Dichloro-(3-nitrophenyl)arsane is a fascinating chemical compound that showcases the intricate relationship between organometallic chemistry and environmental science. Here are some intriguing aspects to consider:

Composition: The compound is categorized as an arsanilic acid derivative, which means it incorporates arsenic into its molecular structure. This integration opens up a wide range of applications and implications, notably in agrochemical formulations.
Biological Interactions: Compound interactions with biological systems are an area of active research. Studying how dichloro-(3-nitrophenyl)arsane interacts with various biological targets adds to our understanding of its potential toxicity and therapeutic applications.
Environmental Concerns: Arsenic compounds, including this dichloro variant, have been associated with environmental contamination. As a scientist, it’s crucial to explore alternative methods for monitoring and mitigating their impact on ecosystems.
Synthetic Pathways: The synthesis of dichloro-(3-nitrophenyl)arsane involves complex organic reactions that can be a valuable learning experience for chemistry students. Understanding these pathways enhances practical laboratory skills.
Analytical Techniques: The analysis of this compound can be conducted using various techniques such as NMR, HPLC, and mass spectrometry, which are essential tools in modern analytical chemistry.

As chemists delve deeper into the study of dichloro-(3-nitrophenyl)arsane, they not only unveil the mysteries of arsenic chemistry but also contribute significantly to public health and safety discussions about hazardous materials.

Synonyms

6306-96-3

ARSINE, DICHLORO(m-NITROPHENYL)-

Arsonous dichloride, (3-nitrophenyl)-

dichloro-(3-nitrophenyl)arsane

TL 66

m-Nitrophenyl-dichloroarsine

Dichloro(m-nitrophenyl)arsine

Dichlor-m-nitrofenylarsin [Czech]

Dichlor-m-nitrofenylarsin

NSC 41658

BRN 3266495

SCHEMBL11808214

DTXSID90212392

NSC41658

NSC-41658

(3-NITROPHENYL)ARSONOUS DICHLORIDE