Interesting facts
Interesting Facts about Triphenyl Phosphite
Triphenyl phosphite is a fascinating chemical compound that plays a significant role in various chemical applications and research. Below are some intriguing aspects of this compound:
- Structural Significance: The molecule consists of a phosphorus atom bonded to three phenyl groups and an oxygen atom, making it an important organophosphorus compound.
- Stabilizing Agent: It is often used as a stabilizer in the production of plastics, particularly polyvinyl chloride (PVC), helping to enhance their resistance to thermal degradation.
- Role in Synthesis: Triphenyl phosphite serves as a key reagent in various organic reactions, especially in the phosphorylation of alcohols and the formation of phosphonate esters.
- Antioxidant Properties: This compound is recognized for its antioxidant capabilities, providing protection against oxidative stress in various chemical environments.
- Environmental Impact: While triphenyl phosphite is less toxic than many other phosphorus-containing compounds, research is ongoing into its environmental effects and degradation pathways.
In the words of chemists, "Triphenyl phosphite is a versatile compound that is indispensable in both industrial applications and research laboratories." Understanding its properties and functions can lead to advancements in materials science and organic synthesis.
As a student or researcher, recognizing the multifaceted nature of triphenyl phosphite can open new avenues for exploration and innovation in your own chemical studies.
Synonyms
TRIPHENYL PHOSPHITE
101-02-0
Phosphorous acid, triphenyl ester
Advance TPP
Triphenoxyphosphine
Phenyl phosphite
Sumilizer TPP-R
Trifenoxyfosfin
Trifenylfosfit
Stabilizer P 36
Phosclere T 36
Mellite 310
Tris(phenoxy)phosphine
P 36 (stabilizer)
Sumilizer TTP-R
Weston TPP
TPP (plasticizer)
ADK Stab TPP
EFED
TP 1 (plasticizer)
Phosphorous Acid Triphenyl Ester
Trifenylfosfit [Czech]
triphenylphosphite
Trifenoxyfosfin [Czech]
Doverphos 10
JP 360
NSC 43789
CCRIS 4890
DTXSID0026252
HSDB 2571
Phenyl phosphite ((C6H5O)3P)
P 36
EINECS 202-908-4
BRN 1079456
9P45GRD24X
AI3-07866
ANTIOXIDANT TPPI
NSC-43789
NSC-62219
Phenyl phosphite, (PhO)3P
DTXCID306252
EC 202-908-4
TRIPHENYL PHOSPHITE [HSDB]
WLN: ROPOR & OR
TRIFENYLFOSFIT (CZECH)
TRIFENOXYFOSFIN (CZECH)
TPP (VAN)
202-908-4
CAS-101-02-0
Triphenyl Phosphite (TPPi)
UNII-9P45GRD24X
Sumilizer TPPR
Sumilizer TTPR
Lankromark LE65
triphelyn phosphite
Weston EGTPP
Doverphos 10-HR
MFCD00003032
MARK TPP
TPP-R
Phenyl phosphite ((C6H5O)3P) (6CI,7CI)
(PhO)3P
P(OPh)3
Triphenyl phosphite, 97%
NCIOpen2_007800
SCHEMBL13289
CHEMBL1875503
P(OC6H5)3
AAA10102
NSC43789
NSC62219
Tox21_202034
Tox21_300002
AKOS015902569
NCGC00091577-01
NCGC00091577-02
NCGC00091577-03
NCGC00091577-04
NCGC00254028-01
NCGC00259583-01
BP-21353
NS00009404
T0510
EN300-19163
F86961
Triphenyl phosphite, purum, >=97.0% (HPLC)
Q222290
doi:10.14272/HVLLSGMXQDNUAL-UHFFFAOYSA-N.1
F0001-0051
Solubility of Triphenyl Phosphite
Triphenyl phosphite, with the chemical formula C18H15O4P, displays interesting solubility characteristics that are important in various chemical applications. This compound is known for its limited solubility in water but exhibits better solubility in organic solvents.
Solubility Characteristics:
This solubility behavior underscores the compound's utility in organic synthesis and as an additive in various formulations. Overall, understanding the solubility profile of triphenyl phosphite can aid chemists in its effective application in research and industry.