1.Superior Performance Foundation
Shanli porous carbon offers excellent conductivity and buffering capacity. Its unique mesoporous structure delivers high porosity and mechanical strength, enabling efficient silicon-carbon composite formation and stable cycling.
2. Volume Expansion Suppression
Pore confinement technology buffers silicon volume changes during charge/discharge, preserving electrode integrity and preventing silicon pulverization in cycle testing.
3. Enhanced Conductive Network
Forms a 3D conductive framework that improves electron transport. Boosts fast-charging capability in consumer electronics and delivers stable high-rate output in EV batteries.
4. Stabilized SEI Layer
Reduces electrode/electrolyte contact area to stabilize SEI formation. A thinner SEI lowers irreversible capacity loss and ensures long-term capacity retention.
5. High-Loading Composite
Uniformly loads silicon particles at the nanoscale. High-loading composites significantly increase specific capacity, helping EVs achieve longer driving range.
6. Prevention of Silicon Agglomeration
Disperses silicon particles within isolated nanoscale pores. Uniform distribution prevents particle growth and aggregation, meeting the stringent cycling stability demands of high-energy-density batteries.













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