Interesting facts
Interesting Facts about Anisole
Anisole, also known as methoxybenzene, is an aromatic ether that has piqued the interest of chemists and students alike for its unique properties and applications. Here are some intriguing facts about this compound:
- Structure and Stability: Anisole features a benzene ring with a methoxy group attached, which lends it remarkable stability. The resonance between the aromatic system and the ether functionality plays a key role in its chemical behavior.
- Industrial Applications: This compound is not just a laboratory curiosity; it has significant industrial applications. Anisole is often used as a solvent and is a key ingredient in the production of various chemicals including pharmaceuticals and fragrances.
- Natural Sources: Interestingly, anisole can be found in nature. It is present in small amounts in the essential oil of cinnamon and other plants, contributing to their distinctive scents. Its pleasant aroma has made it a subject of interest in perfumery.
- Synthetic Chemistry: Anisole is commonly utilized in synthetic chemistry. It serves as a precursor in reactions like the Ullmann reaction and can be used to synthesize more complex organic molecules due to its reactivity.
- Environmental Considerations: While anisole is relatively non-toxic and biodegradable, it is essential to handle it with care. Understanding the chemical behavior and potential interactions of anisole can help in assessing its ecological impact.
As an aromatic compound, anisole stands out not just for its chemical properties but also for its contributions to various fields. Whether in the lab or as a part of everyday products, anisole continues to be a fascinating subject of study for anyone interested in chemistry.
Synonyms
ANISOLE
Methoxybenzene
100-66-3
Benzene, methoxy-
Methyl phenyl ether
Anisol
Phenyl methyl ether
Phenoxymethane
Anizol
Phenol methyl ether
Ether, methyl phenyl
Benzene, methoxy
Methoxy-Benzene
HSDB 44
4-methoxybenzene
methylphenyl ether
FEMA No. 2097
FEMA Number 2097
NSC 7920
UNII-B3W693GAZH
EINECS 202-876-1
B3W693GAZH
CHEBI:16579
AI3-00042
Ether, methyl phenyl-
NSC-7920
MFCD00008354
DTXSID4041608
EC 202-876-1
ANISOLE (USP-RS)
ANISOLE [USP-RS]
UN2222
anisole-
4-methoxy benzene
Methyl phenyl-Ether
Anisole, 8CI
Methoxy-Benzeneanisole
ANISOLE [FHFI]
ANISOLE [HSDB]
ANISOLE [FCC]
ANISOLE [MI]
Methoxy-benzene (anisol)
bmse010217
SCHEMBL1205
WLN: 1OR
Anisole, analytical standard
Anisole, anhydrous, 99.7%
SCHEMBL497674
FEMA NUMBER: 2097
CHEMBL278024
DTXCID2021608
SCHEMBL12015260
Anisole, ReagentPlus(R), 99%
DTXSID10938426
NSC7920
CHEBI:192244
METHOXY-BENZENE (ANISOL)
Methyl phenyl ether;Methoxybenzene
Anisole, >=99%, FCC, FG
BDBM50386177
STL263485
AKOS000120161
CCG-266043
FA47253
UN 2222
Anisole [UN2222] [Flammable liquid]
MSK001105-1000M
LS-13275
DB-003588
A0492
NS00003297
EN300-16114
C01403
M03556
Methoxybenzene Solution in Methanol, 1000ug/mL
Q312244
Z53833865
F1908-0172
Anisole, United States Pharmacopeia (USP) Reference Standard
InChI=1/C7H8O/c1-8-7-5-3-2-4-6-7/h2-6H,1H
Anisole, Pharmaceutical Secondary Standard; Certified Reference Material
202-876-1
Solubility of Anisole
Anisole, known scientifically as methoxybenzene, with the chemical formula C7H8O, exhibits interesting solubility characteristics that are essential for its applications in various fields such as organic synthesis and fragrances. Here are some key points regarding its solubility:
Understanding the solubility of anisole is crucial for its effective utilization in chemical reactions and formulations. As a non-polar organic compound, its behavior in various solvents can greatly influence reaction mechanisms and product yields.