Interesting facts
Interesting Facts About Methoxyethylene
Methoxyethylene, also known as methoxyethene, is a fascinating compound with unique properties and applications that make it noteworthy in both academic and industrial settings. Here are some interesting facts about this intriguing compound:
- Composition: Methoxyethylene consists of a methoxy group (-OCH3) attached to an ethylene unit (C2H4), making it a member of the vinyl ether family.
- Reactivity: One of the key features of methoxyethylene is its reactivity in polymerization reactions. It can be used to create various polymers, which have applications ranging from adhesives to coatings.
- Applications in Organic Synthesis: Due to its functional groups, methoxyethylene serves as an important intermediate in the synthesis of more complex organic molecules. Chemists often utilize it as a building block in the development of pharmaceuticals and agrochemicals.
- Environmental Considerations: Like many organic compounds, the handling and disposal of methoxyethylene must be managed carefully. It is essential to understand its environmental impact and seek safer alternatives or methods for its use.
- Analytical Techniques: Researchers utilize a variety of analytical techniques to study methoxyethylene, including gas chromatography and nuclear magnetic resonance (NMR) spectroscopy, allowing for better understanding of its properties and behavior.
In summary, methoxyethylene is more than just a simple chemical compound; it plays a crucial role in various chemical processes and industries. As understanding of its properties continues to evolve, it may offer even more innovative applications in the future. As one chemist put it, "Every compound tells a story; it's our job to decipher it."
Synonyms
Methyl vinyl ether
Methoxyethene
Ethene, methoxy-
107-25-5
VINYL METHYL ETHER
Methoxyethylene
Ether, methyl vinyl
1-Methoxyethylene
Agrisynth MVE
Ether, ethenyl methyl
CCRIS 8972
HSDB 1033
EINECS 203-475-4
UNII-G2OHX46576
G2OHX46576
METHYL VINYL ETHER (METHYL-D3)
EC 203-475-4
68473-30-3
MFCD00161528
UN1087
methylvinyl ether
vinylmethyl ether
Gantrez M
Texapret WL
Lutonal M40
Gantrez M093
Gantrez M154
Gantrez M555
Lutonal M 40
Lutonal M-40
Gantrez M 093
Gantrez M 094
Gantrez M 154
Gantrez M 574
Gantrez M-094
Gantre M-154
CH2=CHOCH3
Vinyl methyl ether, inhibited
DTXSID4026761
VINYL METHYL ETHER [HSDB]
JAA00309
NSC137646
VINYL METHYL ETHER, STABILIZED
AKOS007930016
NSC-137646
UN 1087
DB-040745
NS00004314
A800191
A801614
InChI=1/C3H6O/c1-3-4-2/h3H,1H2,2H
Q904476
Vinyl methyl ether, inhibited [UN1087] [Flammable gas]
203-475-4
Solubility of Methoxyethylene
Methoxyethylene, chemically represented as CH3OCH=CH2, exhibits specific solubility characteristics that are noteworthy for various applications. Understanding its solubility can be crucial for scientists and engineers working with this compound.
General Solubility
The solubility of methoxyethylene can be categorized as follows:
Factors Influencing Solubility
Several factors can influence the solubility of methoxyethylene:
In conclusion, while methoxyethylene is reasonably soluble in water, its solubility in organic solvents is generally *more favorable*, reflecting the complex interactions of polar and nonpolar molecules. Therefore, understanding these solubility properties is essential for applications ranging from chemical synthesis to material science.