CAS ID | 2516-34-9 |
---|---|
IUPAC Name | Cyclobutylamine |
Molecular Formula | C4H9N |
Molecular Weight | |
SMILES | NC1CCC1 |
CAS ID | 2516-34-9 |
---|---|
IUPAC Name | Cyclobutylamine |
Molecular Formula | C4H9N |
Molecular Weight | |
SMILES | NC1CCC1 |
75645 |
Synonym: cyclobutylamine, aminocyclobutane, cyclobutyl amine, cyclobutylamin, cyclobutaneamine, 1-amino cyclobutane, pubchem11047, acmc-209ghn, cyclobutylammonium chloride
Boiling Point | 82°C |
Color | Yellow |
UN Number | 2733 |
Formula Weight | 71.12 |
Physical Form | Clear Liquid at 20°C |
Chemical Name or Material | Aminocyclobutane |
Cyclobutylamine is a cyclic organic compound with the molecular formula C4H9N. It is a clear, colorless liquid with a slightly pungent odor. Cyclobutylamine is a versatile chemical that finds applications in various industrial sectors, including pharmaceuticals, agrochemicals, and materials science.
One of the practical uses of cyclobutylamine is as an intermediate in synthesizing various pharmaceuticals, including antiviral drugs, anticancer agents, and cardiovascular medicines. It is also used to produce agrochemicals, such as herbicides and insecticides.
Cyclobutylamine has unique chemical properties, making it a valuable building block for synthesizing complex organic compounds. It can undergo reactions such as N-alkylation, N-oxidation, and acylation, allowing diverse molecules to be created.
In materials science, cyclobutylamine is used as a monomer to synthesize various polymers, including polyamide and polyester resins. These polymers find use in producing coatings, adhesives, and fibers.
Cyclobutylamine is also a standard reagent used in organic chemistry research to synthesize novel compounds. It has low toxicity and is relatively stable, making it a safe and reliable choice for laboratory work.
In conclusion, cyclobutylamine is a versatile and valuable chemical used in various industrial applications, including pharmaceuticals, agrochemicals, and materials science. Its unique chemical properties and versatility make it an essential building block for synthesizing complex molecules and materials.
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