Interesting facts
Exploring Methyl 3-Dimethoxyphosphinothioyloxybut-2-enoate
Methyl 3-Dimethoxyphosphinothioyloxybut-2-enoate is a fascinating compound in the realm of organophosphorus chemistry. Its intricate structure, featuring a phosphorus atom directly bonded to a thioether and an enoate group, opens up remarkable avenues for research and application. Here are some intriguing aspects:
- Versatile Applications: This compound exhibits potential applications in various fields including agriculture as a pesticide or herbicide, where phosphonates can act as bioactive agents.
- Unique Functional Groups: The incorporation of dimethoxy groups alongside the thioyloxy moiety allows for unique reactivity and interaction patterns, being effective in pharmaceutical synthesis and catalysis.
- Phosphorus Chemistry: Compounds containing phosphorus often exhibit unique chemical behavior. Methyl 3-Dimethoxyphosphinothioyloxybut-2-enoate showcases the versatility of phosphorus in forming sp3 and sp2 hybridized bonds.
- Research Interest: Due to its special structure, chemists are especially interested in this compound for investigations into new chemical reactions and properties, paving the way for innovative materials and compounds.
- Environmental Impact: As with many organophosphorus compounds, understanding the environmental implications is vital. Research into its degradability and toxicity is essential to assess its potential use in various applications.
In summary, Methyl 3-Dimethoxyphosphinothioyloxybut-2-enoate serves as more than just a chemical entity; it stands as a beacon for ongoing scientific inquiry and innovation. As we continue to explore the boundaries of modern chemistry, this compound offers both challenges and opportunities for researchers and students alike.
Synonyms
Methyl 3-[(dimethoxyphosphorothioyl)oxy]but-2-enoate
DTXSID40941847
Solubility of Methyl 3-Dimethoxyphosphinothioyloxybut-2-enoate
The solubility of methyl 3-dimethoxyphosphinothioyloxybut-2-enoate can be influenced by various factors, including its chemical structure and the polarity of its functional groups. Here are some important aspects to consider:
As a rule of thumb, it is often useful to remember that “like dissolves like.” Therefore, understanding the polarity and functional groups of a compound is key to predicting its solubility in various solvents.
Overall, while specific solubility data may be limited for this compound, the aforementioned factors offer a foundational understanding of how it might behave in solution.