Interesting facts
Interesting Facts about 2-[isopropoxy(methyl)phosphoryl]oxypropane
2-[isopropoxy(methyl)phosphoryl]oxypropane, a fascinating phosphorous compound, showcases the diversity of organophosphates in chemical sciences. Here are some engaging facts:
- Structure Complexity: This compound possesses a unique structure featuring a phosphorus atom bonded to both isopropoxy and methyl groups. Its intricate design provides a glimpse into how small variations in molecular architecture can lead to significant changes in chemical behavior.
- Applications in Agriculture: Organophosphate compounds like this one are often studied for their roles in pesticides. They possess the ability to inhibit certain enzymes in pests, making them effective in protecting crops from undesirable insects.
- Biochemical Significance: Phosphorus plays a crucial role in biology. This compound could potentially affect pathways related to energy transfer and signal transduction, showcasing how synthetic compounds mimic or interfere with natural processes.
- Research Potential: The unique combination of groups in 2-[isopropoxy(methyl)phosphoryl]oxypropane opens avenues for research into new materials, pharmaceuticals, and catalysts. Scientists are continually exploring these types of compounds for innovative applications.
- Environmental Perspective: As a scientist, it's important to consider the environmental impact of compounds. The degradation pathways of organophosphates are significant, and studying them helps us understand their persistence in the environment and potential effects on ecosystems.
In summary, 2-[isopropoxy(methyl)phosphoryl]oxypropane not only adds to the richness of chemical diversity but also plays a vital role in various fields ranging from agriculture to biochemistry. Its study can lead to advancements that impact areas like pest control, human health, and environmental safety.
Synonyms
DIISOPROPYL METHYLPHOSPHONATE
1445-75-6
Diisopropyl methanephosphonate
Bis(1-methylethyl) methylphosphonate
Phosphonic acid, P-methyl-, bis(1-methylethyl) ester
HSDB 6864
EINECS 215-896-0
Methylphosphonic acid bis(1-methylethyl)ester
METHYLPHOSPHONIC ACID DIISOPROPYL ESTER
2-[methyl(propan-2-yloxy)phosphoryl]oxypropane
BRN 1761635
56V3OG5DC7
DTXSID5024051
CHEBI:77325
Phosphonic acid, methyl-, bis(1-methylethyl) ester
Phosphonic acid, methyl-, diisopropyl ester
DTXCID304051
4-04-00-03501 (Beilstein Handbook Reference)
CAS-1445-75-6
p-Methyl-bis(1-Methylethyl) Ester Phosphonic acid; DIMP
UNII-56V3OG5DC7
Dimp (phosphonate)
MFCD00015022
2-[isopropoxy(methyl)phosphoryl]oxypropane
SCHEMBL472052
CHEMBL1232236
o,o-Diisopropyl methylphosphonate
Bis(1methylethyl) methylphosphonate
Tox21_201712
Tox21_300474
AKOS006229159
DB02127
methyl-phosphonic acid diisopropyl ester
NCGC00248074-01
NCGC00254262-01
NCGC00259261-01
Phosphonic acid, methyl, diisopropyl ester
DB-009689
Methylphosphonic acid bis(1methylethyl)ester
NS00015668
Phosphonic acid, methyl-, o,o-bis-isopropyl ester
Phosphonic acid, Pmethyl, bis(1methylethyl) ester
Phosphonic acid,p-methyl-,bis(1-methylethyl)ester
Q5276479
215-896-0
Solubility of 2-[isopropoxy(methyl)phosphoryl]oxypropane (C7H17O4P)
The solubility of 2-[isopropoxy(methyl)phosphoryl]oxypropane can be considered through various parameters that affect its interaction with solvents. This compound exhibits unique properties due to its structure, containing both hydrophobic and hydrophilic groups, which can influence its solubility profile.
Factors Influencing Solubility
Due to these factors, one could summarize the solubility of 2-[isopropoxy(methyl)phosphoryl]oxypropane as somewhat moderate in polar solvents, though it may face limitations in non-polar solvents owing to its hydrophilic characteristics. Generally, it is advisable to assess solubility under specific conditions to obtain accurate insights.