Interesting facts
Interesting Facts About Triallyl Phosphate
Triallyl phosphate is a fascinating compound notable for its unique structure and diverse applications in various fields. Here are some intriguing aspects of this chemical:
- Structure and Reactivity: The compound features three allyl groups attached to a phosphate moiety, which significantly influences its reactivity and stability. This structural characteristic makes it a versatile building block in organic synthesis.
- Industrial Applications: Triallyl phosphate is widely utilized in the production of flame retardants, lubricants, and plasticizers, showcasing its importance in the chemical industry. It severely enhances the performance of materials by providing thermal stability.
- Role in Polymer Chemistry: This compound serves as a useful crosslinking agent in the synthesis of various polymers, contributing to the development of materials with enhanced mechanical properties.
- Research Potential: Ongoing studies are exploring its potential in biomedicine, particularly in drug delivery systems and as a possible therapeutic agent. The compound is under investigation for its anti-cancer properties, highlighting its promising future in pharmaceutical applications.
- Safety Considerations: While triallyl phosphate has many applications, it is important to handle it with care, as it can be a skin irritant and poses environmental risks if not managed properly. Adhering to safety protocols and regulations is essential when working with this compound.
In the words of a renowned chemist, “The beauty of chemistry lies in the myriad combinations and applications of compounds.” Triallyl phosphate epitomizes this idea, serving as a prime example of how a single compound can have diverse implications across scientific disciplines.
In summary, triallyl phosphate is not just a chemical entity but a compound rich in potential, offering insights into both environmental safety and innovative industrial applications.
Synonyms
TRIALLYL PHOSPHATE
Allyl phosphate
Triallyl orthophosphate
Phosphoric acid, tri-2-propenyl ester
PHOSPHORIC ACID TRIALLYL ESTER
Triallylfosfat
Phosphoric acid, triallyl ester
Phosphoric acid, tri-2-propen-1-yl ester
Allyl phosphate ((C3H5O)3PO)
Triallylfosfat [Czech]
HSDB 5843
UNII-5INO747KFF
EINECS 216-606-5
5INO747KFF
NSC 30703
BRN 1708586
AI3-18371
NSC-30703
DTXSID5061827
4-01-00-02088 (Beilstein Handbook Reference)
ALLYL PHOSPHATE ((C3H5O)3PO) [HSDB]
DTXCID3035218
Phosphoric acid, tri2propenyl ester
Phosphoric acid, triallyl ester (8CI)
216-606-5
inchi=1/c9h15o4p/c1-4-7-11-14(10,12-8-5-2)13-9-6-3/h4-6h,1-3,7-9h
xhgifbqqegrtpb-uhfffaoysa-n
1623-19-4
triallylphosphate
tris(prop-2-enyl) phosphate
MFCD00014946
tris(prop-2-en-1-yl)phosphate
SCHEMBL30605
NSC30703
WLN: 1U2OPO&O2U1&O2U1
AKOS024333011
SY053868
DB-299323
NS00020484
P0264
D91936
Q27262333
Solubility of Triallyl Phosphate
Triallyl phosphate, with the chemical formula (C6H9O4P), exhibits unique solubility characteristics that are worth noting. Here are some key points:
In summary, while triallyl phosphate is not particularly soluble in water, its compatibility with various organic solvents allows for its use in diverse chemical applications. As with many compounds, the solubility is influenced by multiple factors, including temperature and the nature of the solvent.