The performance and safety of modern electrochemical devices, particularly advanced batteries, are heavily dependent on the quality and properties of their electrolyte systems. As the industry pushes towards higher energy densities, faster charging capabilities, and improved safety standards, novel electrolyte components are in high demand. Diethylmethyl(2-methoxyethyl)ammonium bis(trifluoromethylsulfonyl)imide (DEME TFSI), a sophisticated room temperature ionic liquid (RTIL) with CAS number 464927-84-2, is emerging as a key ingredient in these next-generation formulations.

As a leading manufacturer specializing in high-purity specialty chemicals, we recognize the critical role DEME TFSI plays in advancing electrolyte technology. Its unique chemical structure, characterized by the C10H20F6N2O5S2 molecular formula and a molecular weight of 426.40, imparts properties that are highly desirable for electrochemical applications. Primarily, DEME TFSI is utilized in the development of polymeric gel electrolyte systems. These systems offer a compelling alternative to traditional liquid electrolytes by combining the high ionic conductivity necessary for efficient charge transport with enhanced mechanical stability, thereby improving safety and preventing leakage.

The advantages of incorporating DEME TFSI into electrolyte formulations are significant. Its inherent thermal stability and negligible vapor pressure contribute to safer battery operation, reducing the risk of thermal runaway. Furthermore, its wide electrochemical window allows for compatibility with a broader range of electrode materials, enabling the development of batteries with higher operating voltages and improved energy density. For researchers and product developers in the battery industry, securing a reliable supply of this high-purity RTIL is paramount. We, as a manufacturer and supplier based in China, are dedicated to providing consistent quality and availability.

For procurement managers and scientists looking to buy DEME TFSI, understanding its technical merits is key. Its excellent solvation properties and ability to form stable complexes with metal ions, such as Mg2+, make it an excellent candidate for advanced battery chemistries beyond lithium-ion. The liquid or viscous liquid appearance, ranging from colorless to very light yellow, indicates its refined state. We encourage inquiries for this critical component. By partnering with us, you gain access to a reliable source of high-quality DEME TFSI, competitive pricing for bulk orders, and the technical support necessary to integrate it effectively into your advanced electrolyte formulations. Contact us today for a quote on CAS 464927-84-2 and take a step towards revolutionizing your electrochemical device designs.