In the realm of advanced materials and chemical processes, identifying versatile and high-performance components is key to innovation. 1-Methyl-3-propyl-1H-imidazol-3-ium Hexafluorophosphate(V), commonly known as PMIMPF6 (CAS 216300-12-8), is an imidazole ionic liquid that merits close attention from R&D scientists and procurement managers alike.

PMIMPF6 is characterized by its chemical formula C7H13F6N2P and a molecular weight of approximately 270.16. As a low melting point solid, it offers a purity of 97% or higher, ensuring its suitability for sensitive applications. The imidazole core, coupled with the hexafluorophosphate anion, grants it properties that are highly sought after in various fields. These include excellent thermal stability, a wide electrochemical window, and tunable solvent capabilities, making it a prime example of a functional ionic liquid.

The applications for PMIMPF6 are diverse and expanding. In electrochemistry, it serves as a promising electrolyte component for batteries and supercapacitors, offering enhanced safety and performance compared to conventional organic electrolytes. Its utility also extends to catalysis, where it can act as a reaction medium or support, promoting greener and more efficient synthetic routes. Furthermore, its unique solvating properties make it valuable in materials science for the synthesis and processing of novel compounds and structures.

For businesses looking to procure this advanced chemical, understanding its advantages is paramount. Sourcing PMIMPF6 from a reputable manufacturer ensures access to consistent quality and reliable supply. We, as a leading supplier from China, are dedicated to meeting these needs. We offer competitive pricing, readily available samples, and robust technical support to assist our clients in their product development and manufacturing processes. Discover the potential of PMIMPF6 for your next project by partnering with a trusted source. Contact us today to get a quote and explore how we can support your material requirements.