Interesting facts
Interesting Facts About Bromo(chloro)methane
Bromo(chloro)methane, also known as halomethane, is an intriguing compound with a variety of applications and significance in both industrial and research settings. Here are some captivating insights:
- Derivatives of Methane: Bromo(chloro)methane is a derivative of methane, a simple hydrocarbon. In this case, one hydrogen atom is replaced by a bromine atom and another by a chlorine atom, leading to its unique properties.
- Use as a Reagent: This compound is often utilized as a reagent in organic chemistry. It plays a vital role in synthesizing other chemical compounds through addition and substitution reactions.
- Historical Significance: Bromo(chloro)methane has been studied extensively due to its potential applications in pesticides and pharmaceuticals. Its halogenated structure allows it to interact with biological systems in specific ways, making it of interest for medical research.
- Environmental Considerations: Like many halogenated compounds, bromo(chloro)methane raises environmental concerns. Its impact on the ozone layer and potential toxicity to aquatic life necessitates careful handling and consideration in the production and disposal processes.
- Physical Properties: The presence of both bromine and chlorine contributes to the compound's distinctive properties, including varying reactivity and potential use as a solvent in industrial processes.
In summary, bromo(chloro)methane serves as a valuable compound in both laboratory and practical applications, bridging gaps between organic synthesis and environmental science. Its unique characteristics demonstrate the fascinating complexity of halogenated organic compounds.
Synonyms
Bromochloromethane
74-97-5
bromo(chloro)methane
Methane, bromochloro-
CHLOROBROMOMETHANE
Methylene chlorobromide
Chloromethyl bromide
Halon 1011
Fluorocarbon 1011
Monochloromonobromomethane
Methylene Bromochloride
Mil-B-4394-B
Bromo-Chloro-Methane
CCRIS 817
Mono-chloro-mono-bromo-methane
HSDB 2520
Methylene bromide chloride
NSC 7294
EINECS 200-826-3
UN1887
CH2ClBr
BRN 1730801
DTXSID4021503
CHEBI:17194
NSC-7294
45WX84110G
DTXCID301503
CHLOROBROMOMETHANE [HSDB]
EC 200-826-3
4-01-00-00074 (Beilstein Handbook Reference)
UN 1887
BROMOCHLOROMETHANE-D2, 99 ATOM % D
Bromoclorometano
Chlorobrom
AI3-15514
UNII-45WX84110G
chloromethylbromide
bromo-chloro methane
methane, bromochloro
BrCH2Cl
bromanyl(chloranyl)methane
MilB4394B
Bromoclorometano (Spanish)
WLN: G1E
SCHEMBL49877
SCHEMBL435277
CHEMBL346918
Chlorobromomethane (ACGIH:OSHA)
NSC7294
R30B1
Tox21_200790
AKOS009156881
Bromochloromethane, analytical standard
CAS-74-97-5
NCGC00091237-01
NCGC00091237-02
NCGC00258344-01
13590-47-1
Bromochloromethane [UN1887] [Poison]
DB-074917
B0573
NS00003679
Bromochloromethane 100 microg/mL in Methanol
C02661
A838287
Q421751
Bromochloromethane, contains 100 ppm BHT as inhibitor, >=99.5%
200-826-3
Solubility of Bromo(chloro)methane (CH2BrCl)
Bromo(chloro)methane, also known as CH2BrCl, exhibits specific solubility characteristics due to its molecular structure and polarity. Here are key points to consider:
In summary, the solubility of bromo(chloro)methane is dictated by its polar characteristics and the nature of the solvent used. As a compound, it is more attracted to polar organic solvents than to water, making it an interesting subject for study in solvent-solute interactions.