Interesting facts
Interesting Facts about 2,2,2-Trichloroacetonitrile
2,2,2-Trichloroacetonitrile, often referred to as TCA, is a fascinating compound with several applications and characteristics that make it significant in the realm of chemistry. Here are some intriguing aspects:
- Versatile Solvent: TCA is known for its versatility as a solvent, often used in various synthesis reactions and processes due to its ability to dissolve a wide range of organic materials.
- Precursor in Synthesis: This compound serves as a key precursor in the synthesis of several pharmaceuticals and agrochemicals, highlighting its importance in industrial chemistry.
- Toxicological Awareness: 2,2,2-Trichloroacetonitrile is classified as a hazardous substance. Thus, it is essential to handle this compound with care, ensuring proper safety measures are in place to mitigate exposure risks.
- Environmental Impact: The environmental persistence of TCA raises concerns regarding its potential impact on ecosystems and human health, necessitating ongoing research and monitoring of its effects on the environment.
- Distinctive Properties: Due to its high degree of halogen substitution, TCA exhibits unique physical and chemical properties, making it a compelling subject of study in organohalogen chemistry.
In the words of chemist Dr. John W. O'Leary, "Compounds like 2,2,2-trichloroacetonitrile remind us of the delicate balance we must maintain in the pursuit of innovation and environmental stewardship." Understanding and respecting the dual nature of such compounds is crucial for responsible scientific advancement.
As research continues to unfold, TCA provides a perfect example of how chemical compounds can play multifaceted roles in both applied chemistry and environmental science.
Synonyms
TRICHLOROACETONITRILE
2,2,2-trichloroacetonitrile
Cyanotrichloromethane
Acetonitrile, trichloro-
Trichloromethyl cyanide
Trichloroethanenitrile
Trichlouracetonitril
Trichlor-acetonitril
Trichloromethylnitrile
Nitrile trichloracetique
Trichlormethylkyanid
Trichlormethylkyanid [Czech]
Trichlouracetonitril [Dutch]
CCl3CN
Trichlor-acetonitril [German]
NSC 66405
CCRIS 2671
Nitrile trichloracetique [French]
EINECS 208-885-7
BRN 0605572
trichloro acetonitrile
DTXSID0021672
AI3-28759
HSDB 7618
Acetonitrile, 2,2,2-trichloro-
UNII-6397DL8869
NSC-66405
2,2,2-Trichloro-acetonitrile
DTXCID201672
6397DL8869
TRICHLOROACETONITRILE [MI]
4-02-00-00524 (Beilstein Handbook Reference)
TRICHLOROACETONITRILE [HSDB]
TRICHLOROACETONITRILE [IARC]
TRICHLORO-ACETIC ACID,NITRILE
TRICHLOROACETONITRILE (IARC)
trichloracetonitril
acetonitrile, trichloro
TRICHLOROCYANOMETHANE
Acetonitrile, 2,2,2trichloro
208-885-7
druiessivfyomk-uhfffaoysa-n
inchi=1/c2cl3n/c3-2(4,5)1-
545-06-2
Tritox
CHEBI:82541
MFCD00001842
trichloroactonitril
trichloroacetonitril
tricloroacetonitrile
Trichloro-acetonitrile
Cl3CCN
WLN: NCXGGG
Trichloroacetonitrile, 98%
SCHEMBL100297
CHEMBL1330912
BCPP000284
BCP23001
NSC66405
STR00776
Tox21_201058
BBL011245
STK937576
AKOS005666556
BCP9000523
NCGC00091762-01
NCGC00091762-02
NCGC00258611-01
CAS-545-06-2
BCP0726000172
DB-004103
NS00009906
T0372
EN300-21245
C19535
E78847
A830218
F0001-1434
Solubility of 2,2,2-Trichloroacetonitrile
2,2,2-trichloroacetonitrile, known for its distinctive properties, presents interesting solubility characteristics. This compound is primarily soluble in a variety of organic solvents, which can be attributed to its polar molecular structure. Here are some key points regarding its solubility:
In summary, this compound's solubility reflects its non-polar characteristics while showcasing a pronounced affinity for organic solvents. As a result, understanding its solubility profile is crucial for effective use and application in chemical processes.