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锂电池活性炭

Buy Lithium Battery Activated Carbon

Activated carbon is an extremely porous carbon with a massive internal surface area. Its most significant role is as the positive electrode material in Lithium-Ion Capacitors (LICs). In LICs activated carbon stores energy electrostatically by rapidly adsorbing and releasing ions at the carbon surface (electric double-layer capacitance), allowing for rapid power delivery and extremely long cycle life.
In standard Lithium-Ion Batteries (LIBs), it acts as an auxiliary material. Brought into small fractions at electrodes, activated carbon helps in conductivity enhancement and in part creates a conductive network within the electrode structure. It may also serve to absorb excess electrolyte.
The major properties that make it favorable are the totally porous and porous structures (providing the surface area), good electrical conduction, and stability in organic battery electrolytes.
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行业挑战

Activated carbon (AC) has several distinct challenges when used in supercapacitors:

Material Performance & Design

  • Precise pore structure control for optimal ion transport
  • Maintaining stability under extreme temperatures
  • Balancing surface area with conductivity requirements

可持续性与合规性

  • Developing renewable raw material alternatives
  • Meeting evolving environmental regulations
  • Ensuring cleaner production processes
  • Addressing end-of-life recyclability

Manufacturing & Integration

  • Achieving uniform electrode dispersion
  • Maintaining energy density during integration
  • Compatibility with existing production processes
  • Scaling new material formulations

Industry Coordination

  • Lack of standardized specifications
  • Supply chain fragmentation
  • Import dependencies for high-grade material
  • Limited R&D collaboration across sector

相关类型的活性炭

颗粒活性炭(粒状活性炭)

颗粒活性炭 (GAC)

  • 碘值: 600-1200
  • 网眼尺寸:1×4/4×8/8×16/8×30/12×40/20×40/20×50/30×60/40×70(可根据要求提供更多尺寸)
  • 表观密度400-700
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柱状活性炭

粒状活性炭

  • 碘值:500-1300
  • 网眼尺寸:0.9-1mm/1.5-2mm/3-4mm/6mm/8mm(可根据要求提供更多尺寸)
  • 表观密度450-600
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粉末活性炭(Powder activated carbon)

粉末活性炭

  • 碘值:500-1300
  • 网眼尺寸:150/200/300/350(可根据要求提供更多尺寸)
  • 表观密度:450 - 550
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蜂窝活性炭(蜂巢活性炭)

蜂窝活性炭

  • 碘值400-800
  • 网眼尺寸:100×100×100 毫米/100×100×50 毫米(可根据要求定制细胞密度)
  • 表观密度350-450
  • 孔径:1.5-8 毫米
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椰壳活性炭

  • 碘值:700-1200 毫克/克
  • 表面积:700-1200 平方米/克
  • 表观密度:320-550 公斤/立方米
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果壳活性炭

  • 碘值:700-1200 毫克/克
  • 表面积:700-1200 平方米/克
  • 表观密度:320-550 公斤/立方米
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煤基活性炭

煤基活性炭

  • 碘值:700-1200 毫克/克
  • 表面积:700-1200 平方米/克
  • 表观密度:300-650 公斤/立方米
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木质活性炭

  • 碘值:700-1200 毫克/克
  • 表面积:700-1200 平方米/克
  • 表观密度:320-550 公斤/立方米
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物理活性炭

  • 活化方法:高温蒸汽/气体活化
  • 孔隙结构:微孔为主,孔隙分布均匀
  • 环境简介:无化学物质,灰分含量低
  • 主要应用:气相吸附、饮用水净化
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化学活性炭

  • 活化方法:在中等温度下进行化学活化(如 H₃PO₄/ZnCl₂)。
  • 孔隙结构:介孔丰富,表面积较大
  • 工艺效率:活化时间更短,30-50% 产量更高
  • 后处理:需要进行酸洗以去除残留物
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浸渍活性炭

  • 功能化:添加活性剂(如 I₂/Ag/KOH)
  • 定向吸附:增强对特定污染物(如 Hg⁰/H₂S/酸性气体)的捕捉能力
  • 定制:针对目标污染物进行化学优化
  • 核心应用:工业气体处理、核生化防护
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为什么使用我们的活性炭

Tailored Pore Architecture:

(1) Precision-engineered micro/mesopore distribution for optimal ion diffusion kinetics.
(2) Hierarchical structure designed specifically for lithium-ion transport requirements.
(3) Consistent pore geometry ensuring predictable electrochemical performance.

Enhanced Durability & Regenerability:

(1) conductivity across extreme temperature ranges.
(2) Robust structural integrity preventing degradation during rapid charge/discharge cycles.
(3) Chemically inert composition minimizing parasitic reactions with electrolytes.

recycle

Sustainable Material Provenance:

(1) Certified renewable feedstocks with full traceability from source to production.
(2) Waste-to-value manufacturing aligned with circular economy principles.
(3) Low environmental footprint processes meeting global compliance standards.

Technical Integration Support:

(1) Pre-optimized surface functionality for seamless electrode integration.
(2) Customizable particle morphology matching specific manufacturing requirements.
(3) Dedicated application engineering for battery system compatibility validation.

productivity(1)

Supply Chain Assurance:

(1) Vertically integrated production ensuring consistent quality control.
(2) Scalable manufacturing capacity with guaranteed material traceability.
(3) Global logistics network enabling reliable just-in-time delivery.

工艺与技术

1.As Anode Material in Lithium-Ion Batteries

解决方案概述

Microporous activated carbon (e.g., coconut shell-derived) serves as a sulfur host in cathodes. Its high surface area and tunable pore structure immobilize sulfur and trap polysulfides, mitigating the "shuttle effect".

主要优势

  • Enhanced Capacity Retention: Biomass-derived activated carbon maintains stable reversible capacity over extended cycles due to robust structural integrity.
  • High Rate Capability: The hierarchical pore network (micro/mesopores) enables rapid ion diffusion, supporting fast charging without significant capacity loss.
  • Sustainable Sourcing: Utilizes agricultural or industrial waste (e.g., tea residues, argan shells), reducing environmental footprint.

2. In Lithium-Ion Capacitors

解决方案概述

Activated carbon functions as the cathode material paired with battery-type anodes (e.g., Li₄Ti₅O₁₂), combining high power density (capacitor-like) with high energy density (battery-like) through electric double-layer capacitance.

主要优势

  • High Power Delivery: Rapid ion adsorption/desorption at the carbon-electrolyte interface enables ultrafast charge/discharge.
  • Long Cycle Life: Electrostatic storage mechanism minimizes degradation, ensuring longevity exceeding typical batteries.
  • Electrolyte Compatibility: Dielectric optimization of electrolytes enhances voltage stability and reduces decomposition.

3. For Tail Gas Treatment in Battery Manufacturing

解决方案概述

Activated carbon systems (e.g., movable mesh belts) adsorb volatile organic compounds and pollutants from lithium-ion battery production exhaust, improving environmental compliance.

主要优势

  • Efficient Adsorption Kinetics: High surface area captures diverse pollutants with minimal downtime for carbon replacement.
  • Process Integration: Modular design integrates with existing production lines, reducing operational disruptions.
  • Resource Optimization: Extended carbon utilization lowers waste generation.

4. In Wastewater Treatment for Battery Industry

解决方案概述

Activated carbon from invasive plants (e.g., horsetail grass) treats heavy metals, organics, and phosphates in lithium battery wastewater via tailored pore chemistry and metal-doped activation.

主要优势

  • Multipollutant Removal: Functional groups and metal doping (e.g., Fe, Al) enhance adsorption selectivity for complex contaminants.
  • Renewable Feedstock: Uses fast-growing biomass, aligning with circular economy principles.
  • Scalable Production: Simplified activation processes enable cost-effective industrial deployment.

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