Product Name:1-Methyl-3-octylimidazolium tetrafluoroborate

IUPAC Name:1-methyl-3-octyl-1H-imidazol-3-ium; tetrafluoroboranuide

CAS:244193-52-0
Molecular Formula:C12H23BF4N2
Purity:95%+
Catalog Number:CM187617
Molecular Weight:282.13

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CM187617-500g in stock ȦȌƙ

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Product Details

CAS NO:244193-52-0
Molecular Formula:C12H23BF4N2
Melting Point:-
Smiles Code:CCCCCCCC[N+]1=CN(C)C=C1.F[B-](F)(F)F
Density:
Catalog Number:CM187617
Molecular Weight:282.13
Boiling Point:
MDL No:MFCD03095434
Storage:2-8°C

Category Infos

Imidazoles
Imidazole is an important five-membered nitrogen-containing heterocyclic compound. Among the numerous heterocyclic compounds, imidazole and its derivatives are regarded as a unique and multifaceted scaffold material due to their diverse applications in industrial, organic and pharmaceutical chemistry. Imidazoles interact in different ways with many therapeutic targets, enzymes and receptors in biological systems and thus exhibit a wide range of biological activities. In particular, several imidazoles can be used as clinical drugs to treat various types of cancer with high therapeutic efficacy. Furthermore, imidazoles are one of the most critical segments in the field of anti-covid-19 virus drug discovery due to their ability to interact with active targets in living systems.
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Borates
Borates are classified as critical materials, they are the main source of boron and have a variety of industrial applications. Organic trifluoroborate is stable to heat, air and humidity, and is a very convenient crystalline boric acid compound. Since it has a tetra-coordinated boronic acid structure after the substitution of fluorine, it does not exhibit Lewis acidity and is stable to oxidation conditions. In addition, it can be regarded as the protector of boronic acid and boronic acid ester, which can be converted into each other. The compound can generally exist stably in organic solvents, but will decompose in protic solvents to liberate trivalent boron, so it can be directly used as a substrate for Suzuki coupling. The difference between trifluoroborate and boric acid is that it must exist in a monomeric form, so the equivalent weight can be closely controlled.

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Product Other Information

Product Overview 1-Methyl-3-octylimidazolium tetrafluoroborate (MOM-Tf) is an ionic liquid (IL) that has been studied extensively for its potential applications in the fields of organic synthesis, catalysis, and chemical analysis. It is a colorless, odorless liquid that is soluble in both organic and aqueous solvents, and is known for its low vapor pressure and high thermal stability. MOM-Tf has been used in a variety of applications, including as a solvent for the synthesis of organic compounds, as a catalyst for chemical reactions, and as a reagent for the analysis of various compounds.
Synthesis and Application 1-Methyl-3-octylimidazolium tetrafluoroborate can be synthesized by a two-step process involving the reaction of 1-methyl-3-octylimidazole with tetrafluoroboric acid. In the first step, 1-methyl-3-octylimidazole is reacted with tetrafluoroboric acid in a 1:1 molar ratio in an inert solvent such as acetonitrile or dichloromethane. The reaction is typically carried out at room temperature and requires no additional catalyst or base. In the second step, the resulting product is purified by column chromatography and then stored as a liquid or solid. 1-Methyl-3-octylimidazolium tetrafluoroborate has been studied extensively for its potential applications in the fields of organic synthesis, catalysis, and chemical analysis. It has been used as a solvent for the synthesis of organic compounds, as a catalyst for chemical reactions, and as a reagent for the analysis of various compounds. It has also been used in the synthesis of a variety of organic compounds, including pharmaceuticals, agrochemicals, and polymers. Additionally, it has been used in the synthesis of nanoparticles and nanomaterials, and in the study of the structure and reactivity of molecules.
Future Directions 1-Methyl-3-octylimidazolium tetrafluoroborate has a wide range of potential applications in the fields of organic synthesis, catalysis, and chemical analysis. In the future, it could be used for the synthesis of pharmaceuticals, agrochemicals, and polymers. Additionally, it could be used in the synthesis of nanoparticles and nanomaterials, as well as in the study of the structure and reactivity of molecules. Additionally, it could be used in the analysis of various compounds, such as proteins and nucleic acids. Finally, it could be used in the development of new catalysts and solvents for the synthesis of organic compounds.