Exploring 1-Ethyl-3-Methyl-1H-Imidazolium Perchlorate: Properties and Applications
Discover the key characteristics, industrial uses, and manufacturing excellence of this vital ionic liquid.
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1-Ethyl-3-Methylimidazolium Perchlorate
This ionic liquid stands out for its exceptional purity and versatile nature, making it a crucial component in advanced chemical processes. Its stringent impurity profile ensures reliability in sensitive applications, while its tunable properties offer significant advantages over traditional solvents, aligning with the growing demand for green chemistry and sustainable technologies.
- Leveraging 1-ethyl-3-methylimidazolium perchlorate properties for enhanced electrochemical performance in batteries and supercapacitors.
- Understanding the various ionic liquid applications for optimizing catalytic reactions and complex organic synthesis.
- Sourcing high-purity chemicals from a trusted high purity chemical manufacturer ensures consistent and reliable experimental results.
- Exploring the CAS 65039-04-5 uses in pioneering research and industrial scale production processes worldwide.
Key Advantages
Exceptional Purity and Consistency
With a purity of 99% or higher and meticulously controlled impurity levels, this compound is ideal for high-precision reactions, ensuring that 1-ethyl-3-methylimidazolium perchlorate properties consistently meet stringent requirements.
Environmental and Performance Benefits
Ionic liquids offer reduced environmental impact due to negligible vapor pressure and enhanced thermal stability, supporting the development of eco-friendly processes and innovative green chemistry solvents.
Manufacturing Excellence and Scale
Benefit from over a decade of R&D in ionic liquids, enabling production from gram to hundreds of tons, positioning us as a leading ionic liquid supplier China for both research and industrial needs.
Key Applications
Electrochemistry & Energy Storage
Its ionic nature and stability make it a preferred choice for electrolyte components in advanced batteries and supercapacitors, vital for modern energy storage solutions.
Catalysis and Organic Synthesis
The compound’s versatility extends to catalysis and organic synthesis, where its unique properties can facilitate complex reactions and improve yields, contributing to efficient catalysis in organic synthesis.
Research and Development
Academic and industrial researchers utilize this chemical for exploring novel applications and advancing the field of ionic liquid technology, benefiting from its well-defined CAS 65039-04-5 uses.
Material Science
Its tunable characteristics make it valuable in developing new materials with specific properties for diverse industrial applications, supported by comprehensive chemical R&D services.