Interesting facts
Interesting Facts about 3-Chloropropanenitrile
3-Chloropropanenitrile is a fascinating organic compound that falls under the category of nitriles, characterized by the presence of a −C≡N functional group. Here are some interesting points to consider:
- Versatility in Synthesis: This compound plays an important role in organic synthesis, often used as a building block for creating other complex molecules.
- Reactivity: The presence of both a chlorine atom and a nitrile group makes 3-chloropropanenitrile particularly reactive, enabling it to participate in a variety of nucleophilic substitution reactions.
- Solvent Properties: 3-Chloropropanenitrile can act as a solvent for various chemical reactions, facilitating the synthesis of pharmaceuticals and other organic compounds.
- Industry Applications: In the chemical industry, this compound is often utilized in the production of agrochemicals, pharmaceuticals, and specialized polymers, showcasing its utility in multiple fields.
- Biological Activity: Some studies suggest potential biological applications, as certain nitriles can demonstrate antimicrobial or anti-inflammatory properties, making 3-chloropropanenitrile an interesting subject in medicinal chemistry.
- Safety and Handling: Due to its reactive nature, it is critical to handle this compound with caution. Laboratories must adhere to safety protocols when working with 3-chloropropanenitrile, as it may pose health risks upon inhalation or skin contact.
In conclusion, 3-chloropropanenitrile is a compound with diverse applications and notable reactivity. Its significance in both laboratory and industrial contexts makes it an essential topic of study for chemistry enthusiasts and professionals alike. As the field of organic chemistry formulates new methodologies, compounds like 3-chloropropanenitrile continue to illuminate pathways for innovation.
Synonyms
3-Chloropropionitrile
3-Chloropropanenitrile
542-76-7
Propanenitrile, 3-chloro-
3-CHLOROPROPANONITRILE
Propionitrile, 3-chloro-
Chloropropionitrile, 3-
HSDB 6042
EINECS 208-827-0
UNII-61N7S4SZ2Q
BRN 1098454
DTXSID4030336
AI3-28526
CH2ClCH2CN
NSC-2588
Cl(CH2)2CN
DTXCID2010336
4-02-00-00751 (Beilstein Handbook Reference)
3-CHLOROPROPANONITRILE [HSDB]
3Chlorpropannitril
3chloropropionitrile
1Chloro2cyanoethane
3chloropropanenitrile
betaChloropropionitrile
Propionitrile, 3chloro
Propanenitrile, 3chloro
2-CYANOETHYL CHLORIDE
208-827-0
gnhmrtzznhzddm-uhfffaoysa-n
inchi=1/c3h4cln/c4-2-1-3-5/h1-2h
un3276
3-Chloropropiononitrile
1-Chloro-2-cyanoethane
3-Chlorpropannitril
beta-Chloropropionitrile
USAF A-8798
RCRA waste number P027
.beta.-Chloropropionitrile
NSC 2588
61N7S4SZ2Q
3-Chlorpropannitril [Czech]
CAS-542-76-7
RCRA waste no. P027
3-chloro-propionitrile
WLN: NC2G
3-Chloropropionitrile, 98%
CHEMBL1451739
NSC2588
Tox21_202225
Tox21_303460
MFCD00001952
STL264202
AKOS001045367
FC44421
.BETA.-CHLOROPROPIONITRILE [MI]
NCGC00090983-01
NCGC00090983-02
NCGC00090983-03
NCGC00257316-01
NCGC00259774-01
DB-015751
NS00033022
EN300-17524
Q4634123
F8881-4925
Solubility of 3-chloropropanenitrile
3-chloropropanenitrile, with the chemical formula C3H4ClN, exhibits interesting solubility characteristics that are influenced by its polarity and molecular structure. Generally, the solubility of a compound in various solvents can be analyzed as follows:
As a rule of thumb in chemistry, “like dissolves like”, which applies exceptionally well to 3-chloropropanenitrile, making it a versatile compound for various applications. For practical purposes, when working with this nitrile, consider using solvent systems that are compatible with its polar nature to ensure efficient dissolution and reactivity.