Nano-scale silicon-carbon anode materials
Launching the silicon-carbon battery era
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Launching the silicon-carbon battery era
As a new generation of lithium battery anode material, BIMT nano-scale silicon-carbon anode materials provide higher energy density, higher first-cycle efficiency, longer cycle life, and compatibility with industrial design and expansion of various battery units, helping you transition to next-generation batteries.
Product Overview
Mastering core technologies,reshaping the new landscape of the battery industry
The theoretical specific capacity of silicon-carbon anode material is more than 10 times that of graphite, which is the fundamental reason it represents the next generation of battery materials. BIMT has pioneered advanced preparation technologies and processes, overcoming industry challenges such as high expansion rates, high costs, and poor cycling stability of silicon-carbon anode materials, enabling large-scale commercial applications.
Product Advantage
The road to a battery-powered world is long, and we are at the forefront
High energy without sacrificing battery life and safetyOur product utilizes expansion suppression and multi-level pore-formation technology to increase capacity to 6-7 times that of graphite material without compromising battery cycle life and safety.
High-volume production ensuring continuous supply for your productsCurrently, most silicon-based anode companies are in small-scale to pilot testing stages. BIMT's silicon-carbon anode materials have achieved mass production at the 10,000-ton level, ensuring reliable provision of high-quality materials at scale throughout every stage of commercial production.
Low emissions, creating a more sustainable futureWe are committed to providing clean energy to the world and reducing dependence on fossil fuels. Compared to graphite materials, our silicon-carbon anodes produce lower CO₂ emissions, helping make your products more environmentally sustainable.
Property
Unlocking the battery's full potential,
we provide the best solution
we provide the best solution
>2000mAh/g
Specific capacity>2000mAh/g, enabling ultra-long battery life
Specific capacity far exceeding the industry average, greatly enhancing battery endurance performance.
>90%
Initial Coulombic Efficiency (ICE) >90%, faster charging and discharging
High ICE and rate performance, achieving rapid charging and discharging to meet the demands of high-power devices with exceptional energy delivery.
≥80%
Long-cycle capacity retention rate ≥80%, ensuring longer service life
The ultra-high capacity retention rate provided under high structural stability achieves longer battery life and superior long-term performance.
>30%
Cost savings >30%, improving economic efficiency
Unique manufacturing processes and ultimate cost control make large-scale commercial applications a reality rather than just a theoretical possibility.
Product manual of nano-scale silicon-carbon anode materials
