Interesting facts
Interesting Facts about N-Diphenoxyphosphorylaniline
N-Diphenoxyphosphorylaniline is a fascinating compound that finds its utility primarily in the realm of organic chemistry and pesticide development. Here are some intriguing aspects about this compound that showcase its significance:
- Unique Structure: The molecular architecture of N-diphenoxyphosphorylaniline incorporates a phosphorus atom bonded to two phenoxy groups and an aniline moiety. This structure is notable because it combines the reactivity of phosphorus with the stability inherent in aromatic systems.
- Biological Activity: Compounds that contain phosphorus are often employed in biological contexts. N-diphenoxyphosphorylaniline has shown potential in influencing certain biological pathways, making it a subject of interest for developing new agrochemicals or pharmaceuticals.
- Applications: With its dual-phenoxy configuration, this compound can serve as an effective pesticide or herbicide. The incorporation of phosphorous also suggests potential uses in flame retardants or even in material science for synthesizing novel polymers.
- Research Insights: According to recent studies, “the incorporation of diphenoxyphosphoryl groups tends to enhance the selectivity and efficacy of certain herbicides.” This statement underscores the compound's relevance in agricultural chemistry.
- Environmental Considerations: As with many phosphorus-containing compounds, understanding the environmental fate of N-diphenoxyphosphorylaniline is crucial. Researchers are actively exploring its degradation products and potential ecological impacts to ensure sustainable usage.
In conclusion, N-diphenoxyphosphorylaniline is not just a chemical compound; it embodies the intersection of innovative design and practical applications. Its unique structure and biological properties keep it at the forefront of scientific research, particularly in developing safer and more effective chemical agents in agriculture.
Synonyms
Diphenyl N-phenylphosphoramidate
667-804-7
Diphenyl phenylphosphoramidate
3848-51-9
Diphenyl anilinophosphonate
N-diphenoxyphosphorylaniline
Diphenyl anilidophosphate
Phenylphosphoramidic acid diphenyl ester
PHOSPHORAMIDIC ACID, PHENYL-, DIPHENYL ESTER
BRN 2148196
S 757
Diphenylphenylphosphoramidate
Diphenyl phenylamidophosphate
4-12-00-01084 (Beilstein Handbook Reference)
MLS001049374
Diphenyl phenylamidophosphate #
SCHEMBL7734146
CHEMBL1368844
DTXSID30191798
HMS2786M12
BBL018841
STK046011
AKOS001023645
NCGC00246381-01
Phenyl-phosphoramidic acid diphenyl ester
SMR000427319
DB-081825
CS-0368213
{[PHENOXY(PHENYLAMINO)PHOSPHORYL]OXY}BENZENE
Z56757337
Solubility of N-diphenoxyphosphorylaniline
N-diphenoxyphosphorylaniline demonstrates unique solubility characteristics that are influenced by its molecular structure.
In general, the solubility of this compound can be summarized as follows:
It is essential to remember that the solubility can vary significantly depending on the exact conditions and the presence of other solutes in the medium. As a general rule, compound solubility is intricately linked to its structural features and the nature of the solvent employed.
Ultimately, understanding the solubility of N-diphenoxyphosphorylaniline can provide key insights for its applications in various chemical processes.