1-Hexyl-3-methylimidazolium Trifluoromethanesulfonate: A Versatile Ionic Liquid
Exploring the advanced properties and diverse industrial applications of this key ionic compound.
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1-Hexyl-3-methylimidazolium Trifluoromethanesulfonate
This advanced ionic liquid is a colorless liquid with high purity, making it ideal for demanding industrial and research applications. Its moisture sensitivity requires careful handling and storage under inert atmosphere.
- Investigating ionic liquid electrolytes for batteries highlights its role in energy storage solutions.
- Utilizing this compound as a green solvent in chemical reactions promotes environmentally friendly processes.
- Its application in biochemical studies showcases its ability to stabilize biomolecules effectively.
- Exploring separation processes using ionic liquids demonstrates its utility in various extraction techniques.
Advantages Provided by the Product
Enhanced Stability
Experience excellent thermal stability and low volatility, crucial for applications requiring high-temperature resistance, supporting various material science applications of ionic liquids.
Superior Solubility
Benefit from enhanced solubility for both polar and non-polar compounds, optimizing extraction processes and chemical reactions, making it a key component in chemical separation technologies.
Efficient Conductivity
Leverage favorable ionic conductivity, essential for its use as a vital component in electrolytes for batteries, improving overall energy storage performance.
Key Applications
Energy Storage
Serve as an efficient electrolyte in lithium-ion batteries, enhancing conductivity and stability, a critical aspect of ionic liquid electrolytes for batteries.
Green Chemistry
Act as a green solvent in various chemical reactions, promoting environmentally friendly processes by reducing the need for hazardous solvents, showcasing its potential as a green solvent in chemical reactions.
Biochemical Research
Used in biochemical assays and studies, particularly in protein folding and enzyme activity, due to its ability to stabilize biomolecules, a key area for biochemical studies with ionic liquids.
Separation Technologies
Effective in liquid-liquid extraction processes, particularly in the separation of metals from solutions, making it valuable in recycling and waste management, a prime example of separation processes using ionic liquids.