Interesting facts
Interesting Facts About Propanenitrile
Propinenitrile, commonly known in the scientific community as acrylonitrile, is an intriguing compound with a significant role in industrial applications and organic synthesis. Here are some interesting aspects to consider:
- Applications in Industry: Propanenitrile is chiefly used in the production of plastics, particularly in the synthesis of acrylic fibers and resins. This versatility makes it a key player in the textile and plastics industries.
- Role in Organic Chemistry: As a nitrile, propanenitrile serves as an important intermediate in organic synthesis. It can be used to create various functional groups through reactions, like the transformation into carboxylic acids or amines.
- Environmental Considerations: The production and use of propanenitrile are monitored due to its potential toxicity. Scientists are constantly looking for safer alternatives and methods to mitigate its environmental impact.
- Physical State: Although this information does not pertain to its physical characteristics, it is worth mentioning that propanenitrile is a volatile liquid at room temperature, making it necessary to handle with caution in laboratory and industrial settings.
- Historical Significance: The synthesis of propanenitrile traces back to the early 20th century, marking a significant advancement in organic chemistry and industrial processes that continue to evolve today.
In summary, propanenitrile is more than just a simple chemical compound; it represents a bridge between organic chemistry and industrial application, emphasizing the importance of chemical safety and sustainable practices in modern science. As scientists, we are driven by the challenge of utilizing such fascinating compounds responsibly, ensuring their benefits while minimizing potential risks.
Synonyms
PROPIONITRILE
Propanenitrile
Ethyl cyanide
107-12-0
Propiononitrile
Cyanoethane
Propylnitrile
Propionic nitrile
Ether cyanatus
Hydrocyanic ether
Propannitril
Ethylkyanid
RCRA waste number P101
n-Propanenitrile
EtCN
NSC 7966
CCRIS 4706
HSDB 117
EINECS 203-464-4
UNII-E16N05FX3S
BRN 0773680
1-Cyanoethyl radical
E16N05FX3S
DTXSID1021879
CHEBI:26307
AI3-08777
CH3CHCN
NSC-7966
CH3CH2CN
MFCD00001948
C2H5CN
DTXCID401879
4-02-00-00728 (Beilstein Handbook Reference)
Ethylkyanid [Czech]
Propannitril [Czech]
Propionitril
UN2404
RCRA waste no. P101
ethylcyanide
proprionitrile
EINECS 268-599-3
Propionitrile, 99%
PROPIONITRILE [MI]
WLN: NC2
PROPIONITRILE [HSDB]
CHEMBL15871
DTXSID70186325
DTXSID80180495
NSC7966
Propionitrile, analytical standard
Tox21_201135
STL168048
AKOS000200375
UN 2404
NCGC00091259-01
NCGC00091259-02
NCGC00258687-01
Propionitrile, purum, >=99.0% (GC)
CAS-107-12-0
Propionitrile 1000 microg/mL in Methanol
NS00020464
P0514
EN300-21609
InChI=1/C3H5N/c1-2-3-4/h2H2,1H
Propionitrile [UN2404] [Flammable liquid]
A801585
Q414458
F0001-0138
203-464-4
Solubility of Propanenitrile
Propanenitrile, with the chemical formula C3H7N, exhibits notable solubility characteristics. Understanding its solubility behavior is essential for various applications, from synthesis to environmental chemistry.
Key Solubility Characteristics:
In summary, the solubility of propanenitrile can be summarized as follows:
The ability of propanenitrile to dissolve in a range of solvents underscores its importance in both industrial and laboratory settings, enabling greater flexibility in chemical processes.