| Customization: | Available |
|---|---|
| Production Scores: | Multiple Varieties |
| Production Continuity: | Continuous |
Suppliers with verified business licenses
Audited Supplier Audited by an independent third-party inspection agency
| Performance | Reason for Improvement | Potential Application Advantages |
| High Safety | Utilizes inorganic non-flammable electrolyte with good thermal stability | Simplifies system safety protection design, reduces constraints on battery system layout |
| High Energy Density | Capable of adopting bipolar plate structures, compatible with high-capacity anode and cathode materials such as lithium metal | Enhances battery module energy density, potentially doubling it, and may reduce manufacturing costs |
| High Power Characteristics | Ion hopping transport mechanism of solid electrolytes, with high ionic conductivity and lithium-ion transference numbers | Improves fast charging performance, matching the needs of electric vehicles |
| Good Temperature Adaptability | Operates within a wide temperature range of -30~100ºC, with solid electrolytes that neither freeze nor vaporize | Simplifies cooling mechanisms, broadening application scenarios for electric vehicles |
| Wide Range of Material Selection | Wide voltage window with good stability at high voltages | Reduces interfacial side reactions, expanding the range of anode and cathode materials, and lowers raw material costs and resource scarcity risks |
){kind=link}