Interesting facts
Interesting Facts about Dichloro(phenyl)phosphane
Dichloro(phenyl)phosphane, a member of the phosphane family, is recognized for its versatility and importance in organic and inorganic chemistry. Here are some captivating aspects of this compound:
- Unique Structure: The compound features a phosphorus atom bonded to two chlorine atoms and a phenyl group, creating interesting reactivity patterns and properties.
- Reactive Intermediates: As a phosphorus-based compound, dichloro(phenyl)phosphane serves as an intermediate in various chemical reactions, notably in the synthesis of phosphine derivatives.
- Applications in Synthesis: It is particularly useful in the preparation of phosphorus compounds, contributing to the fields of agrochemicals, flame retardants, and ligands in coordination chemistry.
- Phosphorus Chemistry: Studying dichloro(phenyl)phosphane offers insights into phosphorus's behavior and its role in biological systems, which is crucial for understanding nutrient cycling and biological function.
- Environmental Considerations: As with many halogenated compounds, understanding the environmental impact and degradation pathways of dichloro(phenyl)phosphane is essential for developing safe practices in its use.
In the words of renowned chemist Linus Pauling, "The science of chemistry is not a collection of facts; it is a way of looking at the world." Dichloro(phenyl)phosphane encapsulates this sentiment, showcasing the intricate interplay of elements and compounds that shape our understanding of chemistry.
Through continued research, dichloro(phenyl)phosphane remains a vital topic of study, promising advancements in various chemical applications and a deeper comprehension of phosphorus chemistry.
Synonyms
Dichlorophenylphosphine
644-97-3
Phenyldichlorophosphine
Phenylphosphonous dichloride
Dichloro(phenyl)phosphine
Benzenephosphonous dichloride
Phosphonous dichloride, phenyl-
Phenylphosphine dichloride
Benzene phosphorus dichloride
Phenylphosphorus dichloride
Phosphine, dichlorophenyl-
PHENYL PHOSPHORUS DICHLORIDE
Phenylphosphonous acid dichloride
Benzenephosphorus dichloride
Phosphonous dichloride, P-phenyl-
NSC 66478
HSDB 2729
Benzene phosphorus dichloride (DOT)
EINECS 211-425-8
WRU258L1EW
UN2798
BRN 0508189
DTXSID4027282
AI3-15063
NSC-66478
DTXCID307282
EC 211-425-8
4-16-00-00972 (Beilstein Handbook Reference)
PHENYL PHOSPHORUS DICHLORIDE [HSDB]
Phosphine, dichlorophenyl
Phosphonous dichloride, phenyl
PHENYLPHOSPHINOUS DICHLORIDE
211-425-8
dichloro(phenyl)phosphane
PhPCl2
Dichlorophenylphosphane
p,p-Dichlorophenylphosphine
MFCD00000528
Dichlorophenyl phosphine(Technical)
phenyl dichlorophosphine
UNII-WRU258L1EW
Cl2PPh
dichlorophenylphosphin
phenyldichlorophosphane
UN 2798
dichloro-phenylphosphane
WLN: GPGR
C6H5PCl2
SCHEMBL246946
SCHEMBL9300108
CHEMBL1899635
IMDXZWRLUZPMDH-UHFFFAOYSA-
P,P-Dichlorophenylphosphine, 97%
NSC66478
Tox21_303070
AKOS000119980
AC-1784
NCGC00163989-01
NCGC00257120-01
CAS-644-97-3
DB-003626
NS00006723
P0207
EN300-19655
Q410415
Phenyl phosphorus dichloride [UN2798] [Corrosive]
F8880-8166
InChI=1/C6H5Cl2P/c7-9(8)6-4-2-1-3-5-6/h1-5H
Solubility of Dichloro(phenyl)phosphane
Dichloro(phenyl)phosphane, with the chemical formula C6H6Cl2P, exhibits unique solubility characteristics that are worth exploring.
In summary, the solubility of dichloro(phenyl)phosphane is largely influenced by its polarity and the nature of the solvent. As a result, while it finds compatibility with various organic solvents, its solubility in water remains notably low. This versatility in solubility makes it a compound of interest in various chemical applications.