Interesting facts
Interesting Facts about Ethoxymethylbenzene
Ethoxymethylbenzene, also known as ethylphenyl ether, is a fascinating compound with several noteworthy aspects that are important for both scientists and students of chemistry. Let's explore some key points:
- Structure and Functionality: The compound features a benzene ring substituted with an ethoxymethyl group, which gives it unique chemical properties. This structure allows for interesting interactions in various chemical reactions.
- Applications: Ethoxymethylbenzene is often explored for its potential uses in the synthesis of various organic compounds, particularly in pharmaceuticals and agrochemicals.
- Reactivity: The presence of both ethoxy and methyl functional groups makes ethoxymethylbenzene a versatile reactant in organic synthesis, facilitating various transformations including alkylation and etherification reactions.
- Physical Properties: While specific values such as density and boiling points are often researched, the compound's functional groups are more critical in determining its behavior and compatibility with other substances.
- Environmental Considerations: As with many organic compounds, understanding the environmental impact and degradation pathways of ethoxymethylbenzene is crucial for sustainable chemistry practices.
- Secondary Roles: Ethoxymethylbenzene may also act as a solvent in various applications, highlighting its role not just as a reactant but as a medium for chemical processes.
In summary, ethoxymethylbenzene serves as a valuable compound in synthetic chemistry with significant applications across various fields. Its unique structural features and reactivity make it a subject of interest for ongoing research and development.
As you delve deeper into the study of organic compounds, consider how the properties of ethoxymethylbenzene can inspire innovative approaches in chemical synthesis and application!
Synonyms
(Ethoxymethyl)benzene
Benzyl ethyl ether
539-30-0
Ethyl benzyl ether
Ethoxymethylbenzene
Benzyl ethyl oxide
Benzene, (ethoxymethyl)-
Ether, benzyl ethyl
FEMA No. 2144
UNII-5Y0D90XR7K
ethoxymethyl-benzene
5Y0D90XR7K
(ethoxymethyl)-Benzene
NSC 8066
NSC-8066
EINECS 208-714-6
(Ethoxymethyl)benzene, 9CI
Ether, benzyl ethyl (8CI)
AI3-02270
BENZYL ETHYL ETHER [MI]
DTXSID4060230
FEMA 2144
BENZYL ETHYL ETHER [FHFI]
DTXCID9041526
208-714-6
axpzdyvdtmmlnb-uhfffaoysa-n
inchi=1/c9h12o/c1-2-10-8-9-6-4-3-5-7-9/h3-7h,2,8h2,1h
MFCD00039903
ethylbenzyl ether
(Ethoxymethyl)benzene #
SCHEMBL16478
NSC8066
CHEBI:192179
AKOS005267098
CS-W018329
HY-W017613
AS-48266
SY107805
DB-052428
NS00022331
F30115
Q27263024
Solubility of Ethoxymethylbenzene
Ethoxymethylbenzene, with the chemical formula C10H14O, displays solubility characteristics that are influenced by its molecular structure. Understanding the solubility of this compound is essential for various applications in both laboratory and industrial settings.
Solubility in Different Solvents
Ethoxymethylbenzene exhibits the following solubility behaviors:
Factors Affecting Solubility
Several factors contribute to the solubility of ethoxymethylbenzene:
In summary, ethoxymethylbenzene demonstrates a preferential solubility in non-polar solvents while being less soluble in polar environments. This behavior is an essential consideration for chemists when designing experiments or formulating products that incorporate this compound.