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Enhanced Pore Volume Porous Carbon for Si-C Anode Carrier（SL-C120）

SL-C120 is a resin-based porous carbon produced through high-temperature carbonization and activation. Designed as a high-performance carrier for silicon-carbon anodes, it offers enhanced pore volume and structural stability for advanced lithium-ion battery applications.

품목 번호 :
SL-C120
운송 항구 :
Shanghai,Ningbo,Tianjin etc.
리드타임 :
3-5 days
모습 :
Black
모양 :
Powdery
Pore Volume :
≥1.20cm³/g

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설명

SL-C120 the Enhanced Pore Volume Porous Carbon for Si-C Anode Carrier

SHANLI Resin-Based Porous Carbon

SL-C120 is a resin-derived porous carbon manufactured through controlled high-temperature carbonization and activation. Engineered for silicon-carbon anode systems, it provides a robust porous framework that efficiently accommodates nano-silicon deposition.

With higher pore volume and optimized pore size distribution, SL-C120 enables greater silicon loading capacity while maintaining structural integrity during charge/discharge cycles. The resin-derived carbon matrix also ensures good electrical conductivity and mechanical strength, making it an ideal carrier for next-generation high-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)

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Delivery&Packaging

Main Application

High-Energy Consumer Electronics
Enables high-capacity anodes using porous carbon for silicon-carbon anode, extending battery runtime for smartphones/laptops.
EV Traction Batteries
Resin-based porous carbon with high pore volume (≥0.85 cm³/g) boosts EV range and supports fast charging.
Energy Storage Systems (ESS)
Zero macroporosity carbon ensures high cycle life for residential ESS; pressure-resistant porous carbon structure supports grid frequency regulation.
Power Tools
Collapse-resistant carbon structure prevents capacity fade under high-current discharge, improving tool efficiency.
Wearables
Uniform micropore distribution delivers high energy density and mechanical flexibility for smartwatches and TWS earbuds.
Aerospace
High specific surface area carbon reduces battery weight for satellites/UAVs, enhancing flight time and payload.
Specialty Power Sources
Micropore carbon for battery anode ensures stable pulse discharge in medical implants and reliability for deep-sea detectors.

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.

핫 태그 : porous carbon for silicon-carbon anode structural stability carbon carrier porous carbon with high structural stability for batteries advanced battery carrier material

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관련 제품

Resin-Based Porous Carbon for Silicon-Carbon Anode Carrier（SL-C85）

Shanli SL-C85 is a resin-based porous carbon developed for silicon-carbon anode applications. Produced through high-temperature carbonization and activation, it features a uniform microporous structure with zero macroporosity and a pore volume ≥0.85 cm³/g. The material resists collapse and deformation under pressure, providing stable mechanical support for silicon deposition and long cycle life.

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.

High-Performance Porous Carbon for Lithium Battery Silicon-Carbon Anode（SL-C105）

SL-C105 is a resin-derived porous carbon engineered for next-generation high-energy-density batteries. Produced through high-temperature carbonization and activation, it addresses the severe volume expansion of silicon anodes during charge/discharge cycles. Unlike conventional carbon carriers with uneven pore structures, SL-C105 features a three-dimensionally interconnected porous framework with concentrated pore size distribution. This enables efficient nano-silicon adsorption and confines expansion within the pores, significantly improving cycle life. The resin-derived carbon layer also provides fast electron transport pathways. More than a porous carbon, SL-C105 is an integrated "buffering and conductive" carrier platform tailor-made for silicon-carbon anodes.

Enhanced Pore Volume Porous Carbon for Si-C Anode Carrier（SL-C120）

SL-C120 is a resin-based porous carbon produced through high-temperature carbonization and activation. Designed as a high-performance carrier for silicon-carbon anodes, it offers enhanced pore volume and structural stability for advanced lithium-ion battery applications.