1-Butyl-3-vinylimidazolium Bromide: Synthesis, Properties, and Applications in Polymer Chemistry and Beyond
Explore the cutting-edge applications and unique chemical properties of 1-Butyl-3-vinylimidazolium Bromide, a versatile ionic liquid that bridges polymer science and advanced material development.
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1-Butyl-3-vinylimidazolium bromide
As a leading supplier of specialty chemicals, we offer high-quality 1-Butyl-3-vinylimidazolium Bromide. This compound is a versatile ionic liquid with a polymerizable vinyl group, making it a key building block for advanced materials like poly(ionic liquids). Its amphiphilic nature and excellent thermal stability are crucial for its diverse applications. We are a reliable manufacturer in China, committed to providing innovative solutions.
- Polymer Synthesis: Leverage the polymerizable vinyl group to create advanced poly(ionic liquids) with tailored properties, a key area in polymer chemistry innovations.
- Electrochemical Applications: Its ionic conductivity makes it suitable for use in batteries and fuel cells, aligning with green chemistry solutions.
- Environmental Remediation: Exhibit superior iodine sorption capabilities, proving useful in environmental remediation technologies.
- Material Science: Acts as a precursor for various functional polymers and composite materials, advancing material science.
Advantages Offered by the Product
Versatile Monomer for Polymerization
The inherent polymerizable vinyl group allows for extensive use in creating novel poly(ionic liquids) and other advanced polymers, a significant contribution to polymer chemistry innovations.
Exceptional Thermal Stability
Demonstrates high thermal stability, enabling its use in high-temperature applications and contributing to the reliability of advanced materials.
Tunable Ionic Properties
Its structure allows for tunable ionic properties, making it adaptable for various electrochemical applications and energy storage solutions.
Key Applications
Polymer Synthesis
As a polymerizable ionic liquid, it's vital for creating advanced polymeric materials, offering unique properties beneficial for material science research.
Electrochemistry
Its ionic conductivity makes it a valuable component in electrolytes for batteries and fuel cells, supporting the development of green chemistry solutions.
Iodine Sorption
Highly effective in removing and storing iodine from solutions and vapor phases, showcasing its potential in environmental remediation technologies.
Material Science
Serves as a precursor for functional polymers and composite materials, driving innovation in the field of material science.