High Capacity Stable Structure Nano Silicon Carbon Composite Negative Electrode Material for Lithium Ion Batteries

Nano Silicone Carbon High Capacity Stable Structure Silicon Carbon Composite Negative Electrode Material for Lithium Ion Batteries

Product Description:

Cycle life and expansion issues of silicon-carbon anodes

Solution: By combining the preparation process of nano silicon with graphite coating industrial technology, uniform dispersion and complete coating of nano silicon can be achieved, and low expansion, long cycle life silicon carbon composite materials can be prepared.

‌Cost Control in Silicon-carbon Anode

Solution: Using silicon processing waste from the photovoltaic industry as raw material, composite it with graphite material, and finally complete asphalt coating to maintain low-cost advantages in terms of raw materials and processes.

Compatibility of Silicon-carbon Composite Materials with Existing Processes and Battery Production Equipment

Solution: Based on the current production process of graphite negative electrode materials, maintain the maturity of product technology and compatibility with battery production equipment.

Nano Silicone Carbon Advantage:

• Simplified process equipment ,high production efficiency,low manufacturing costs
• Composite with graphite instead of simple mixing, Significant improvement in first effect, cost-effective prelithiation

Technical Parameters:

Nano Silicone Carbon Features

This product belongs to the precursor of ‌Silicon-Carbon Anode Material for lithium-ion batteries, and has the characteristics of high capacity, long cycle life, and excellent processing performance. It is applied to capacity and rate lithium-ion batteries.

Nano Silicone Carbon Applications

This series of products is suitable for various lithium-ion batteries, especially power lithium-ion batteries, steel shell lithium-ion batteries, cylindrical lithium-ion batteries, square lithium-ion batteries, and polymer lithium-ion batteries.

About US

Guided by the philosophy "Innovation Drives the Future", we holds nine invention patents that form the core competitiveness of its production and distribution of advanced silicon-based anode materials. These intellectual achievements empower the company to deliver cleaner and more efficient power solutions to the global energy market, pioneering new frontiers in the energy storage industry.