Lithium Tetrafluoroborate (LiBF4): A High-Performance Electrolyte Additive for Advanced Lithium-Ion Batteries
Enhance your lithium-ion battery performance with the exceptional properties of Lithium Tetrafluoroborate.
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Lithium tetrafluoroborate
Lithium tetrafluoroborate (LiBF4, CAS 14283-07-9) is a crucial chemical compound designed to significantly elevate the performance and longevity of lithium-ion batteries. It serves as a vital electrolyte additive, particularly for LiPF6-based systems, offering remarkable improvements in battery cycle life and operational efficiency across a wide temperature spectrum.
- Improve lithium-ion battery cycle life through its stabilizing effect on the electrolyte system.
- Enhance LiBF4 high and low temperature performance, enabling batteries to operate reliably in extreme conditions.
- Discover the lithium borofluoride chemical properties that make it indispensable for advanced battery technologies.
- Learn where to buy LiBF4 CAS 14283-07-9 from reliable suppliers for your battery research and manufacturing needs.
Benefits Derived from the Product
Extended Battery Lifespan
By acting as a key electrolyte additive, LiBF4 helps to mitigate degradation mechanisms, thereby extending the overall cycle life of lithium-ion batteries, a critical factor for commercial viability.
Improved Temperature Range
The incorporation of Lithium tetrafluoroborate into battery electrolytes significantly broadens the operating temperature range, ensuring consistent performance even at very high or very low ambient temperatures.
Enhanced Electrochemical Stability
LiBF4 contributes to the electrochemical stability of the electrolyte, preventing unwanted side reactions and ensuring more reliable power delivery and energy storage.
Key Applications
Lithium-ion Batteries
As a premier additive for lithium-ion battery electrolytes, LiBF4 is essential for optimizing charge/discharge cycles and overall battery health.
Electrolyte Additive
Its unique properties make it an ideal electrolyte additive for enhancing safety, stability, and performance in various electrochemical energy storage devices.
Battery Research
Facilitates cutting-edge battery research by providing a means to explore advanced electrolyte formulations and improve battery designs for next-generation applications.
Energy Storage Systems
Contributes to the development of more robust and efficient energy storage systems, crucial for renewable energy integration and electric vehicles.