Interesting facts
Interesting Facts about 2,2-Dibromoacetic Acid
2,2-Dibromoacetic acid is a fascinating compound that offers a unique perspective on the intricate world of organobromine chemistry. Here are some engaging facts about this intriguing molecule:
- Structure and Halogenation: This compound is characterized by the presence of two bromine atoms attached to the second carbon of the acetic acid backbone, making it a member of the bromoacetic acid family. The halogenation significantly alters its chemical properties compared to its parent compound, acetic acid.
- Biological Activity: 2,2-Dibromoacetic acid has garnered attention in toxicology studies due to its potential effects on aquatic organisms. Research has shown that it can act as a brominated disinfection by-product, raising concerns about its health implications in chlorinated water systems.
- Versatile Applications: This compound is often used as a reagent in organic synthesis and can serve as an intermediate in the production of various chemicals, including pesticides and pharmaceuticals. Its utility in these fields highlights the *significance of bromine* in modifying chemical reactivity.
- Environmental Considerations: The persistence of brominated organic compounds in the environment poses challenges for environmental chemists. Understanding the degradation pathways of 2,2-dibromoacetic acid is crucial for assessing its ecological risks and developing strategies for remediation.
- Chemical Reactivity: Exhibiting diverse reactivity, 2,2-dibromoacetic acid can participate in nucleophilic substitutions and elimination reactions. This feature is vital for chemists seeking to create complex organic structures.
In conclusion, 2,2-dibromoacetic acid is more than just a simple halogenated acid; it represents a key area of study in both organic synthesis and environmental science. Its unique properties and applications make it a compound worthy of further exploration and understanding.
Synonyms
DIBROMOACETIC ACID
631-64-1
2,2-dibromoacetic acid
Acetic acid, dibromo-
Dibromoacetate
Dibromoethanoic acid
CCRIS 7636
UNII-7FUW62YY5L
EINECS 211-165-5
7FUW62YY5L
DTXSID1023815
CHEBI:90124
HSDB 7622
DTXCID203815
DIBROMOACETIC ACID [HSDB]
DIBROMOACETIC ACID [IARC]
DIBROMOACETIC ACID (IARC)
Dibromoethanoate
2,2-dibromoacetate
acetic acid, dibromo
2,2-Dibromoethanoate
2,2Dibromoacetic acid
Acetic acid, 2,2dibromo
211-165-5
inchi=1/c2h2br2o2/c3-1(4)2(5)6/h1h,(h,5,6
sieilfncefeenq-uhfffaoysa-n
un3261
Dibromoaceticacid
2,2-dibromoethanoic acid
DBAA
10024-50-7
CAS-631-64-1
Dibromoacetic acid, 97%
S29 - Haloacetic Acids
Acetic acid, 2,2-dibromo-
MLS001065597
SCHEMBL137199
CHEMBL449362
AAA63164
Tox21_202297
Tox21_303291
LMFA01090076
AKOS000119767
Dibromoacetic acid, analytical standard
NCGC00090913-01
NCGC00090913-02
NCGC00257152-01
NCGC00259846-01
AS-87648
SMR000568475
DB-054415
NS00008523
C20123
Q18533477
Dibromoacetic acid 1000 microg/mL in Methyl-tert-butyl ether
Solubility of 2,2-Dibromoacetic Acid
2,2-Dibromoacetic acid, with the chemical formula C2H2Br2O2, exhibits interesting solubility characteristics that are influenced by the presence of bromine atoms in its structure. This compound is generally considered to be:
It is important to note that the solubility can be affected by various factors, such as temperature and the presence of other ions in solution. In general, "like dissolves like," so the polar characteristics of 2,2-dibromoacetic acid will favor its solubility in polar solvents, while limiting it in nonpolar solvents. This makes 2,2-dibromoacetic acid an intriguing compound for studying solubility and the effect of substituents on chemical behavior.