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Premium Porous Carbon for Silicon-Carbon Anode(SL-C95)

Premium Porous Carbon for Silicon-Carbon Anode(SL-C95)

Shanli SL-C95 is a high-performance resin-based porous carbon engineered for next-generation silicon-carbon anodes. With a controlled microporous architecture, higher pore volume, and greater specific surface area, it offers expanded internal space for silicon loading. The structure maintains zero macroporosity and remains non-collapsing under pressure, ensuring robust support and improved cycling stability.

  • Item No :

    SL-C95
  • Shipping port :

    Shanghai,Ningbo,Tianjin etc.
  • Lead time :

    3-5 days
  • Appearance :

    Black
  • shape :

    Powdery
  • Pore Volume :

    ≥0.95 cm³/g
  • Pore Volume Percentage (0.35-2nm) :

    ≥82%(0.35-2nm)
  • Description

 

SL-C95 the porous carbon carrier for silicon-carbon anode

 

SHANLI Resin-Based Porous Carbon

 

 

 

SHANLI SL-C95 offers higher pore volume (≥0.95 cm³/g) and specific surface area (≥1950 m²/g), with controllable micropore structure, zero macroporosity, and high crush strength (≥200 MPa), providing ample space and robust structural support for silicon deposition.

Designed for silicon-carbon anode systems with higher capacity requirements, it enables longer cycle life and higher energy density lithium-ion batteries.

 

Applications of Porous Carbon

 

 

Application Area Specific Scenario Key Features
Consumer Electronics Smartphones, Laptops High energy density for extended battery life, lightweight & thin design, increased cycle life
Power Batteries Electric vehicles, Power tools High rate capability for fast charge/discharge, increased cycle life, enhanced safety
Energy Storage Systems Home energy storage, Grid frequency regulation Ultra-long cycle life, cost control, wide temperature adaptability
Other Applications (Under Development)

 

 

 

Our Certificates

 

 

Delivery&Packaging

 

 

 

Main Features

 

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.

 

Caution

1. It should be sealed to avoid of contamination and adsorption of water or other gas and vapors.

2. Storage in a dry warehouse is recommended.

 

 

 

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Qianjiang Industrial Zone, Guichi district chizhou city, Anhui province, China
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