10-Phenoxarsinin-10-yloxyphenoxarsinine

Identification

Molecular formula

C₂₄H₁₈As₂O₄

CAS number

55290-69-0

IUPAC name

10-phenoxarsinin-10-yloxyphenoxarsinine

State

The compound is a solid at room temperature.

Melting point (Celsius)

158.00

Melting point (Kelvin)

431.00

Boiling point (Celsius)

320.00

Boiling point (Kelvin)

593.00

General information

Molecular weight

512.16g/mol

Molar mass

512.1640g/mol

Density

1.7000g/cm³

Appearence

10-Phenoxarsinin-10-yloxyphenoxarsinine appears as a crystalline solid. It is typically colorless to pale yellow, and can exhibit slight fluorescence under ultraviolet light.

Comment on solubility

Solubility of 10-phenoxarsinin-10-yloxyphenoxarsinine

The solubility of 10-phenoxarsinin-10-yloxyphenoxarsinine (C₂₄H₁₈As₂O₄) in various solvents can provide valuable insights into its chemical behavior and potential applications. As a compound containing arsenic, it may exhibit particular solubility characteristics due to the presence of both the organic and inorganic components.

Factors Influencing Solubility

When considering the solubility of this compound, several factors come into play:

Polarity: The overall polarity of the molecule can significantly affect how it dissolves in different solvents. As a general rule, polar solvents are more effective at dissolving polar compounds.
Temperature: Increased temperatures can enhance solubility, allowing more of the compound to dissolve.
Functional Groups: The presence of phenoxy and arsenic moieties in the structure can influence interactions with various solvents.

Expected Solubility Behavior

Experimentally, 10-phenoxarsinin-10-yloxyphenoxarsinine may be expected to exhibit limited solubility in water, typical of many organoarsenic compounds. However, it may show better solubility in organic solvents such as:

Dichloromethane
Ethyl acetate
Dimethyl sulfoxide (DMSO)

In summary, the solubility of C₂₄H₁₈As₂O₄ presents intriguing opportunities for research and development. As always, careful consideration of the solvation environment is crucial, as it can greatly influence the reactivity and stability of this unique compound.

Interesting facts

Interesting Facts about 10-phenoxarsinin-10-yloxyphenoxarsinine

10-phenoxarsinin-10-yloxyphenoxarsinine represents a fascinating class of compounds involving arsenic chemistry, specifically within the domain of organoarsenic compounds. These types of compounds have gained interest due to their unique chemical reactivity and applications in various fields, including agriculture and pharmaceuticals. Here are some intriguing aspects:

Organometallic Chemistry: The presence of arsenic in this compound highlights the importance of organometallics in modern chemistry. Organometallic compounds often exhibit distinct properties, making them useful in catalysis and synthesis.
Potential Health Implications: Some organoarsenic compounds have been studied for their potential roles in medical therapies, particularly in cancer research. Understanding these compounds can lead to breakthroughs in therapeutic agents.
Environmental Considerations: Arsenic compounds are often examined for their environmental impacts. Investigating how they behave in various ecosystems is crucial for safety and regulation.
Synergistic Effects: The structural complexity of 10-phenoxarsinin-10-yloxyphenoxarsinine points towards interesting synergistic effects when combined with other compounds, paving the way for the development of novel agents in chemical research.

As noted by chemists, "The exploration of organoarsenic compounds is akin to peeling an onion; with each layer, new reactivity profiles and applications are revealed." Understanding compounds like 10-phenoxarsinin-10-yloxyphenoxarsinine not only enhances our knowledge of chemical interactions but also showcases the intricate balance between reactivity and stability in organoarsenic chemistry.

Given the ongoing research into the applications of arsenic-containing compounds, further studies could elucidate unknown properties, promising exciting developments in both industrial and medicinal fields.

Synonyms

58-36-6

10,10'-Oxybisphenoxarsine

10,10-Oxybisphenoxarsine

OBPA

Vinadine

Durotex

10,10'-Oxybis(phenoxarsine)

Phenoxarsine oxide

10,10'-Oxydiphenoxarsine

Vinyzene SB 1

Vinyzene (pesticide)

Vinyzene BP 5-2

Phenoxaksine oxide

10-phenoxarsinin-10-yloxyphenoxarsinine

Vinyzene BP 5

10,10'-Oxidiphenoxarsine

DID 47

Phenoxarsine, 10,10'-oxydi-

Bis(10-phenoxarsyl) oxide

10,10'-Oxybis-10H-phenoxarsine

10-10' Oxybisphenoxyarsine

Bis(10-phenoxyarsinyl) oxide

10,10'-Oxybisphenoxy-arsine

Bis(phenoxarsin-10-yl) ether

HSDB 6375

Phenoxyarsine, 10,10'-oxybis-

UNII-1R0GEE9L5Z

10,10'-Bis(phenoxyarsinyl) oxide

EINECS 200-377-3

SA 546

10H-Phenoxarsine, 10,10'-oxybis-

BRN 0055641

1R0GEE9L5Z

DTXSID0032443

2-27-00-00948 (Beilstein Handbook Reference)

bis(10-phenoxarsyl)oxide

Diphenoxarsin-10-yl oxide

Bis(10-phenoxarsinyl)oxide

C24H16As2O3

bis(phenoxarsin-10-yl)ether

Estabex abf

OBPA cpd

Vinyzene BS 1

Vinyzene BP 52

Diphenoxarsin10yl oxide

VINYZENE SB 1PS

VINYZENE SB-1

10,10'Oxidiphenoxarsine

10,10'Oxydiphenoxarsine

Bis(10phenoxarsinyl)oxide

Bis(10phenoxarsyl) oxide

10,10'Oxybisphenoxarsine

VINYZENE BP 505

10,10'Oxybisphenoxyarsine

1010' Oxybisphenoxyarsine

Bis(phenoxarsin10yl) ether

Bis(10phenoxyarsinyl) oxide

Bis(10-phenoxarsinyl) oxide

INTERCIDE ABF 1 ESBO

Phenoxarsine, 10,10'oxydi

SCHEMBL203388

10,10'Oxybis10Hphenoxarsine

Phenoxyarsine, 10,10'oxybis

DTXCID8012443

10,10'-oxybisphenoxarsine oxide

10HPhenoxarsine, 10,10'oxybis

10,10'Bis(phenoxyarsinyl) oxide

10,10'-oxybis(10H-phenoxarsinine)

AKOS022185378

10,10'-OXYDIPHENOXARSINE [MI]

10,10'-BIS(PHENOXARSINYL) OXIDE

10H-PHENOXARSINE, 10,10'-OXYBIS

CS-0161828

NS00078957

H11760

Q3376217

10-(10H-Phenoxarsin-10-yloxy)-10H-phenoxarsine #