At the 2025 World Power Battery Conference, Robin Zeng, Chairman of CATL (Contemporary Amperex Technology Co., Limited.), announced that the company's fifth-generation lithium iron phosphate (LFP) battery has officially entered mass production.

Previously, CATL's fourth-generation LFP battery had already led the industry in high energy density, long lifespan, and high power output. The fifth-generation product further improves upon these metrics with enhanced energy density and cycle life.

Key technological breakthroughs of the fifth-generation LFP battery include: - **Energy Density**: Surpassing mainstream second- and third-generation industry products through material and structural innovations. - **Cycle Life**: Achieving higher stability through material optimization, extending battery lifespan. - **Power Performance**: Maintaining high power output with optimized structural design. - **Low-Temperature Performance**: Capable of charging to 80% in 30 minutes at -10°C, with potential further improvements in cell temperature control technology.

Additional highlights: - **Energy Density Improvement**: Material and structural advancements elevate energy density, boosting electric vehicle range. - **Cycle Life Enhancement**: Increased durability ensures sustained capacity after repeated charging cycles. - **Low-Temperature Optimization**: Progress in thermal management enables efficient charging and operation in cold environments.

The mass production of CATL's fifth-generation LFP battery solidifies its leadership in LFP technology. With significant upgrades in energy density, cycle life, and low-temperature performance, this product will further advance the capabilities of new energy vehicles and energy storage systems.

The "2025 China Power Battery Recycling Summit & Advanced Lithium Extraction Technology Forum" will be held on December 11-12 in Wuhan, focusing on green recycling and efficient lithium extraction. Key topics include: - Development and market analysis of waste lithium battery recycling. - Supply-demand outlook for battery materials in 2026. - High-quality recycling technologies for waste LFP batteries. - Resource regeneration technologies for waste ternary lithium batteries. - Advancements in direct and re-repair techniques for lithium battery electrodes.

For inquiries, contact Xu Ling at 135-222-52485 (WeChat ID available). Website: www.dchslm.com.