Interesting facts
Interesting Facts about 2-Bromoaniline
2-Bromoaniline is a fascinating compound with several noteworthy attributes that make it significant in both industrial and academic settings. As a derivative of aniline, it is essential for a variety of chemical reactions and applications.
Key Characteristics
- Versatile Intermediate: 2-Bromoaniline serves as an important intermediate in the synthesis of various chemical compounds. It is widely used in the production of pharmaceuticals, agrochemicals, and dyes.
- Electrophilic Substitution: The presence of the bromine atom enhances the reactivity of the aniline ring, making it a prime candidate for electrophilic substitution reactions, which are fundamental in organic chemistry.
- Research Applications: This compound is often utilized in research settings to develop new materials and study chemical properties due to its ability to form complex compounds.
Chemical Behavior
Due to the presence of the bromo group, 2-bromoaniline displays unique properties:
- Enhanced Nucleophilicity: The bromine atom can influence the electron density of the nitrogen atom in the amine group, allowing for a range of reactions.
- Reactivity with Amines: This compound can react with various amines to create secondary amines and other nitrogen-containing compounds, showcasing its versatility.
Environmental Considerations
When working with 2-bromoaniline, it is important to be aware of its potential impact on the environment:
- Care must be taken to handle this compound responsibly, as it may pose hazards if released into the environment.
- In laboratory settings, proper disposal methods should be followed to minimize any detrimental effects.
In summary, 2-bromoaniline is more than just a chemical compound; it is a gateway to various synthetic pathways and applications in modern chemistry. Its role as an intermediate and the unique properties bestowed by the bromine atom make it a topic of great interest among chemists.
Synonyms
2-BROMOANILINE
Benzenamine, 2-bromo-
VTP98DS78E
NSC 7086
NSC-7086
EINECS 210-421-3
2-AMINO-1-BROMOBENZENE
DTXSID5060645
oBromoaniline
Aniline, obromo
oAminobromobenzene
Benzenamine, 2bromo
Aniline, obromo (8CI)
DTXCID0043054
210-421-3
aopbdruwrlbsdb-uhfffaoysa-n
inchi=1/c6h6brn/c7-5-3-1-2-4-6(5)8/h1-4h,8h
un2811
615-36-1
o-Bromoaniline
Aniline, o-bromo-
o-Aminobromobenzene
2-bromobenzenamine
2-bromo-aniline
MFCD00007632
aniline, 2-bromo-
2-bromophenylamine
2-bromioaniline
o-bromo-aniline
2-bromaniline
2-bromo aniline
ortho-bromoaniline
NSC7086
2-bromo-phenylamine
2-aminophenyl bromide
2-Bromoaniline, 98%
UNII-VTP98DS78E
SCHEMBL70747
BCP27508
AC-153
STL264119
AKOS000119090
PS-5989
DB-024165
B0541
NS00010858
EN300-19059
A15699
F0001-1624
Z104472512
Solubility of 2-bromoaniline
2-bromoaniline, with the chemical formula C6H6BrN, displays intriguing solubility properties that are influenced by the presence of both the amino (-NH2) and bromo (-Br) functional groups.
Solubility Characteristics:
When considering solubility, it's important to note that temperature can play a significant role, as increased temperatures often lead to higher solubility rates. As stated, "The solubility of a compound can rise significantly with temperature, expanding its potential applications in various fields."
In conclusion, while 2-bromoaniline is not very soluble in water, its compatibility with organic solvents makes it useful in particular chemical processes and reactions.