Interesting facts
Interesting Facts about 1-Bromo-2-phenyl-benzene
1-Bromo-2-phenyl-benzene, also known as a bromo-substituted phenyl compound, is an intriguing aromatic compound that has garnered attention in both academic and industrial settings. Below are some captivating aspects of this compound:
- Aromatic Properties: The structure of 1-bromo-2-phenyl-benzene features multiple aromatic rings, which contribute to its significant stability and unique chemical properties. Aromatic compounds generally exhibit resonance, resulting in lower reactivity compared to non-aromatic compounds.
- Applications in Synthesis: This compound is a valuable intermediate in organic synthesis. It is often used as a building block in the production of pharmaceuticals, agrochemicals, and dyes. Its versatility allows chemists to introduce various functional groups via electrophilic substitution reactions.
- Research Significance: Studies have indicated that compounds like 1-bromo-2-phenyl-benzene may exhibit interesting interactions with biological systems, making them potential candidates for drug development or study related to drug-receptor interactions.
- Persistence and Environmental Impact: Due to the presence of bromine, this compound can pose environmental challenges since brominated compounds can be persistent in nature. Understanding its degradation pathways is crucial for risk assessment and the development of greener chemical processes.
- Chemical Reactivity: The bromine substituent can serve as a leaving group in reactions such as nucleophilic substitutions and cross-coupling reactions, which are essential for forming carbon-carbon bonds—a fundamental aspect of developing complex organic molecules.
- Historical Context: The introduction of bromo-substituted aromatic compounds has historical significance dating back to the early studies in organic chemistry, laying foundational knowledge for modern synthetic chemistry.
In summary, 1-bromo-2-phenyl-benzene is more than just a chemical entity; it embodies the complexities of organic synthesis and the crucial intersections between chemistry, biology, and environmental science. As scientists continue to explore this compound, it will undoubtedly reveal more about its potential applications and implications.
Synonyms
2-Bromobiphenyl
1,1'-Biphenyl, 2-bromo-
2-Bromo-1,1'-biphenyl
1-bromo-2-phenylbenzene
O-BROMOBIPHENYL
Biphenyl, 2-bromo-
2-Bromodiphenyl
m-biphenyl bromide
GXS4234YXD
2-biphenyl bromide
CCRIS 5888
DTXSID0024638
EINECS 218-141-3
NSC 67353
NSC-67353
BROMOBIPHENYL, 2-
UNII-GXS4234YXD
2-PHENYLBROMOBENZENE
2-BIPHENYLYL BROMIDE
PBB 1
AI3-11170
DTXCID704638
O-BROMODIPHENYL
218-141-3
inchi=1/c12h9br/c13-12-9-5-4-8-11(12)10-6-2-1-3-7-10/h1-9
ktadsldaujlzgl-uhfffaoysa-n
2052-07-5
2-Bromo-biphenyl
bromobiphenyl
MFCD00000065
PBB No. 1
NCGC00091586-02
1,1'-Biphenyl, bromo-
NSC67353
2-Bromobiphenyl, 96%
NCIOpen2_003445
MLS002152871
2-Bromo-1,1'-biphenyl #
SCHEMBL115115
CHEMBL1462584
HMS3039P09
BCP23395
Tox21_400039
CX1316
AKOS005254299
AC-4963
CS-W001914
FB32315
PS-7683
NCGC00091586-01
NCGC00091586-03
SMR001224489
SY013526
CAS-2052-07-5
DB-006029
B0559
NS00021835
EN300-244186
Q27279344
Solubility of 1-bromo-2-phenyl-benzene
1-bromo-2-phenyl-benzene, with the chemical formula C13H11Br, exhibits a rather limited solubility in water but shows enhanced solubility in various organic solvents. Here are some key points regarding its solubility:
In summary, as a general rule, compounds like 1-bromo-2-phenyl-benzene demonstrate that like dissolves like; they dissolve well in non-polar solvents but poorly in polar solvents like water. This behavior is crucial when considering its applications and interactions in chemical processes.