Triphenylarsine | Solubility of Things

Identification

Molecular formula

C₁₈H₁₅As

CAS number

603-32-7

IUPAC name

diphenylarsorylbenzene

State

At room temperature, Triphenylarsine is typically a solid. Its stability and aromatic nature make it a frequently encountered compound in organic synthesis.

Melting point (Celsius)

61.00

Melting point (Kelvin)

334.15

Boiling point (Celsius)

360.00

Boiling point (Kelvin)

633.15

General information

Molecular weight

306.23g/mol

Molar mass

306.2330g/mol

Density

1.3800g/cm³

Appearence

Triphenylarsine is a colorless crystalline solid that may appear white in its powdered form. It is aromatic in nature due to the presence of phenyl groups and has a distinctive structure.

Comment on solubility

Solubility of Diphenylarsorylbenzene

Diphenylarsorylbenzene, with its complex structure, displays intriguing solubility characteristics that are critical for its applications in chemical processes. The solubility of this compound can be influenced by various factors, including:

Solvent Type: Diphenylarsorylbenzene is generally soluble in organic solvents such as benzene and toluene due to its non-polar nature.
Temperature: Increased temperatures often enhance solubility, facilitating the dissolution of diphenylarsorylbenzene in suitable solvents.
Polarity: The highly symmetrical, non-polar configuration of diphenylarsorylbenzene limits its solubility in polar solvents such as water.

It is often stated that "like dissolves like." In this case, the non-polar nature of diphenylarsorylbenzene means it will perform poorly in polar environments, emphasizing its preference for non-polar solvents. The effective utilization of this compound largely hinges on understanding these solubility traits to maximize its applications in various chemical contexts.

Interesting facts

Interesting Facts about Diphenylarsorylbenzene

Diphenylarsorylbenzene is a fascinating compound that belongs to the class of organoarsenic compounds. Here are some compelling points about this intriguing chemical:

Unique Structure: The presence of both arsonic and benzene groups in its structure offers a blend of chemical properties, making it a unique candidate for research in organic chemistry.
Biological Implications: Research into organoarsenic compounds like diphenylarsorylbenzene has revealed potential implications related to toxicity and environmental impact, making it a subject of interest in fields like toxicology.
Role in Synthesis: This compound may serve as a precursor in organic synthesis, especially in creating functionalized materials or novel compounds, which can be pivotal for developing new pharmaceuticals.
Historical Context: Organoarsenic compounds have been studied for decades, with a rich history in both pesticide development and medicinal chemistry. Diphenylarsorylbenzene stands as a part of this legacy.
Analytical Challenges: Analyzing compounds like diphenylarsorylbenzene can pose challenges due to their complex behavior in various chemical environments, often requiring advanced techniques for identification and quantification.

Furthermore, the study of diphenylarsorylbenzene opens up discussions surrounding the **safety** and **regulatory aspects** of organoarsenic chemicals, underlining the delicate balance between their utility and their potential hazards. In the words of a renowned chemist, “Every molecule tells a story; it is our duty to listen.”

As research continues, diphenylarsorylbenzene remains a significant example of the multifaceted nature of chemical compounds and their relevance in scientific inquiry.

Synonyms

TRIPHENYLARSINE OXIDE

Arsine oxide, triphenyl-

EINECS 214-571-0

NSC 12673

DTXSID1061570

Arsine oxide, triphenyl

DTXCID2033364

214-571-0

un3465

1153-05-5

diphenylarsorylbenzene

Triphenylarsenic oxide

(diphenylarsoroso)benzene

triphenyl arsinoxide

TPAO

triphenyl arsine oxide

Triphenylarsine oxide, 97%

(C6H5)3As=O

SCHEMBL2133705

NSC12673

NSC-12673

AKOS015889561

DB-009884

NS00081760

G29584

EN300-1703054