Interesting facts
Interesting Facts about Ethanamine; Trifluoroborane
Ethanamine; trifluoroborane is a fascinating compound that combines the properties of ethanamine, a simple amine, with trifluoroborane, an organoboron compound. Here’s why this compound catches the interest of chemists:
- Versatile Intermediate: Ethanamine serves as a crucial intermediate in organic synthesis. Its presence allows for varying chemical transformations, making it a valuable building block in pharmaceuticals and agrochemicals.
- Unique Boron Chemistry: Trifluoroborane is known for its reactive properties, particularly in the formation of boron-containing compounds. The combination with ethanamine can lead to new materials with unique electronic and optical properties.
- Fluorinated Substituents: The trifluoroborane moiety introduces significant electronegativity, enhancing the reactivity of the compound. This can facilitate diverse chemical reactions, including nucleophilic attacks and coupling reactions.
- Application in Catalysis: Due to its unique properties, ethanamine; trifluoroborane can act as a catalyst in various reactions, making it of great interest in synthetic organic chemistry.
- Role in Drug Development: The ability to easily modify the structures of both ethanamine and trifluoroborane positions this compound as a potential candidate in the design of new drugs, especially in the development of neuroactive agents.
In conclusion, ethanamine; trifluoroborane represents the *interplay of amine chemistry and boron chemistry*. Its diverse applications in synthesis and catalysis highlight the significance of this compound in modern chemistry. As chemical research advances, we can expect more discoveries related to its use and functionality!
Synonyms
75-23-0
Boron trifluoride ethylamine
Ethylamine-borontrifluoride
Sumicure BFM
ethanamine;trifluoroborane
Araldite HT 973
Ethylamine Trifluoroborane
Boron fluoride-ethylamine salt
Borontrifluoride monoethylamine
Boron Trifluoride Monoethylamine
Boron, (ethanamine)trifluoro-, (T-4)-
HT973
Ethylamine boron trifluoride
Ethylamine-boron trifluoride
EINECS 200-852-5
BF 3-400
Boron fluoride-monoethylamine
Boron, (ethanamine)trifluoro-, (beta-4)-
DTXSID2052497
Trifluoroborane ethylamine
SCHEMBL48047
DTXCID3031070
JDVIRCVIXCMTPU-UHFFFAOYSA-N
MFCD00013198
AKOS015843305
Boron trifluoride-monoethylamine complex
FE104368
E0399
NS00113239
Ethylamine, compd. with BF3 (1:1) (8CI)
D90502
Q26841245
200-852-5
Solubility of Ethanamine; Trifluoroborane
The solubility behavior of the compound ethanamine; trifluoroborane can be quite intriguing due to the presence of both organic and inorganic components. This substance is known for having variable solubility depending on several factors, including the solvent used and temperature conditions.
Solubility Characteristics:
The combination of these two components leads to solubility that can be expressed as:
In summary, ethanamine; trifluoroborane demonstrates notable solubility in polar environments due to polar interactions, while also exhibiting complexity due to the presence of trifluoroborane, which influences the behavior in aqueous solutions. Thus, understanding these characteristics is essential for practical applications and further study.