High-Purity 1-Butyl-3-Methylimidazolium Bromide for Ionic Liquid Applications and Organic Synthesis
Explore the versatile uses of BMImBr, a key component in modern chemical innovation and advanced material science.
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1-Butyl-3-Methylimidazolium Bromide
This high-purity organic chemical raw material, also known as BMImBr, is a versatile compound with significant applications as an ionic liquid, an electronic chemical auxiliary, and a foundational organic intermediate. Its reliable quality and consistent performance make it a preferred choice for various advanced chemical processes.
- Discover the extensive benefits of using BMImBr in organic synthesis applications, leveraging its unique chemical structure to drive reaction efficiency.
- Understand why high purity BMImBr is essential for achieving optimal results in electronic chemical auxiliaries, contributing to advanced material development.
- Explore the diverse uses of CAS 85100-77-2 as a foundational component in the creation of novel materials and compounds.
- Learn about the physical properties of BMImBr, including its solubility and melting point, which are critical for its effective application in various chemical processes.
Key Advantages
Enhanced Synthesis Efficiency
Utilizing high purity 1-Butyl-3-Methylimidazolium Bromide in your organic synthesis applications can significantly boost reaction yields and streamline complex chemical transformations.
Versatile Electronic Applications
As a leading electronic chemical auxiliary, BMImBr plays a crucial role in the development of cutting-edge electronic components and devices, offering excellent performance characteristics.
Reliable Chemical Intermediate
The consistent quality of CAS 85100-77-2 as an organic chemical raw material ensures its suitability for a wide range of industrial and research purposes, fostering innovation.
Key Applications
Ionic Liquid Formulations
Leverage BMImBr for its exceptional properties as an ionic liquid, essential for various electrochemical and catalytic processes.
Advanced Organic Synthesis
Incorporate BMImBr into your organic synthesis workflows to achieve high purity intermediates and novel compounds.
Electronics Manufacturing
Utilize BMImBr as a specialized chemical in electronics manufacturing for its unique conductive and solvent properties.
Research and Development
Explore the potential of BMImBr in research settings to develop new materials and understand complex chemical reactions.