Interesting facts
Interesting Facts about 1-Methoxy-3-methyl-benzene
1-Methoxy-3-methyl-benzene, also known as *methylated anisole*, is a fascinating aromatic compound that has garnered attention in both industrial applications and organic chemistry. Here are some noteworthy insights:
- Structure and Isomerism: This compound features a methoxy group (-OCH3) and a methyl group (-CH3) attached to a benzene ring. The arrangement of these functional groups showcases the importance of *substitution patterns* in determining the chemical properties and reactivity of aryl compounds.
- Perfume Industry: Due to its sweet and pleasant aroma, 1-methoxy-3-methyl-benzene is frequently utilized in the *fragrance industry*. It's often incorporated into perfumes and scented products, contributing to the overall profile of various fragrances.
- Chemical Reactions: As an example of a substituted aromatic compound, it participates in numerous chemical reactions typical of aromatic systems, such as *electrophilic aromatic substitution*. Its reactivity is influenced by the electron-donating nature of the methoxy group, which activates the benzene ring toward further substitution reactions.
- Natural Occurrence: Interestingly, many aromatic compounds similar to 1-methoxy-3-methyl-benzene are found in nature. They can be derived from plant sources and are often associated with the flavor and fragrance of essential oils.
- Toxicological Studies: Understanding the safety profile of such compounds is crucial. There have been studies assessing the *toxicological effects* and environmental impact of methoxy-substituted compounds, highlighting the need for proper handling and regulation in industrial applications.
In summary, 1-methoxy-3-methyl-benzene is not just a simple aromatic ether; it encompasses a rich array of applications and implications in the fields of chemistry and beyond. Its role in the fragrance industry and its chemical behavior make it an intriguing subject of study for aspiring chemists.
Synonyms
3-Methylanisole
100-84-5
1-Methoxy-3-methylbenzene
3-Methoxytoluene
m-Methylanisole
Benzene, 1-methoxy-3-methyl-
m-Cresol methyl ether
M-METHOXYTOLUENE
Anisole, m-methyl-
Methyl m-tolyl ether
m-Cresyl methyl ether
Methyl m-cresyl ether
3-Methylmethoxybenzene
Methyl 3-methylphenyl ether
1-Methyl-3-methoxybenzene
3-Methyl-1-methoxybenzene
1-Methoxy-3-methyl-benzene
NSC 6255
3-Cresol methyl ether
UI9I3Y6WTZ
EINECS 202-893-4
AI3-19476
NSC-6255
META METHOXYTOLUENE
CHEMBL349791
DTXSID2051500
Meta-Methylanisole
META-CRESOL DEUTEROMETHYL ETHER
UNII-UI9I3Y6WTZ
mMethoxytoluene
mMethylanisole
3Methoxytoluene
Anisole, mmethyl
m-Methyl anisole
3-methyl anisole
3-methoxy toluene
Methyl mtolyl ether
3Methylmethoxybenzene
mCresol methyl ether
mCresyl methyl ether
Methyl mcresyl ether
MFCD00008395
1Methoxy3methylbenzene
1Methyl3methoxybenzene
3-Methylanisole, 99%
Benzene, 1methoxy3methyl
Methyl 3methylphenyl ether
SCHEMBL12353
DTXCID9030048
SCHEMBL12015250
NSC6255
CHEBI:167079
STR09347
BDBM50008537
AKOS000121157
DB-012728
CS-0034591
M0151
NS00005982
EN300-26366
H11854
A800280
Q27291091
Z53834440
F0001-0028
202-893-4
Solubility of 1-Methoxy-3-methyl-benzene
1-Methoxy-3-methyl-benzene, commonly known as anisole, demonstrates interesting solubility characteristics due to its molecular structure. As an aromatic compound, it is primarily soluble in organic solvents while exhibiting limited solubility in water. Here are some key points regarding its solubility:
In summary, while anisole is quite versatile in organic conditions, it remains largely insoluble in water. Its aromatic nature combined with the methoxy group allows it to dissolve effectively in nonpolar environments but poses challenges when attempting to utilize it in aqueous solutions.