For professionals in the battery manufacturing sector, selecting the right electrolyte is paramount to achieving high-performance energy storage solutions. N-Methyl-N-Propylpyrrolidinium Bis(fluorosulfonyl)imide, commonly known as PY13-FSI and identified by CAS number 852620-97-4, stands out as a critical component in this regard. As a leading manufacturer and supplier of advanced chemical intermediates, we are dedicated to providing insights into how this versatile ionic liquid can elevate your product’s capabilities.

PY13-FSI is characterized by its unique chemical structure, C8H18F2N2O4S2, and a molecular weight of approximately 308.36 g/mol. Its physical appearance as a clear, colorless to light yellow liquid, with a very low melting point of -9°C, makes it exceptionally suitable for a wide range of operating temperatures. This low melting point is a significant advantage, ensuring the electrolyte remains functional even in sub-zero conditions, a common challenge in battery design.

The primary appeal of PY13-FSI for battery applications lies in its exceptional ionic conductivity and broad electrochemical stability window, often exceeding 5V. This means it can efficiently transport ions with minimal degradation, allowing batteries to operate at higher voltages and achieve greater energy density. For battery manufacturers looking to buy materials that push the boundaries of performance, sourcing high-purity PY13-FSI from a reliable supplier like us is a strategic move. Our commitment to quality ensures that the PY13-FSI you purchase meets stringent specifications, crucial for consistent battery output and longevity.

Beyond its electrochemical properties, PY13-FSI also offers desirable characteristics such as low volatility and good thermal stability. Unlike traditional volatile organic solvents, ionic liquids like PY13-FSI contribute to safer battery operation by minimizing the risk of evaporation and fire hazards. This inherent safety profile is increasingly important as the industry strives for more sustainable and robust energy storage solutions.

As a dedicated chemical supplier, we understand the importance of cost-effectiveness and supply chain reliability. We offer competitive pricing for PY13-FSI, making it accessible for both research and large-scale production. Whether you are developing next-generation lithium-ion batteries, sodium-ion batteries, or other advanced electrochemical energy storage systems, our high-quality PY13-FSI is engineered to meet your demanding requirements. We encourage you to contact us for a quote and sample to experience the difference that premium materials can make.