Artificial Battery Graphite Powder for Lithium Ion Battery Anode Materials

Name: Artificial Battery Graphite Powder for Lithium Ion Battery Anode Materials
Brand: Shandong Gelon Lib Co., Ltd.
SKU: 1600121140423_1
Price: 18.00 USD
Availability: InStock
Rating: 4.8 (100 reviews)

Product overview

Core functionalities

Applicable scenarios

Unique advantages

Lithium-Ion Battery Anode Material: Designed to enhance energy storage efficiency and conductivity in lithium-ion batteries through its high-purity graphite and carbon composition.
Granular Structure: The dark, granular texture (mix of fine particles and larger chunks) optimizes surface area for superior ion transfer, ensuring stable performance in high-demand applications.

Key features

1. Material Technology

With high-purity artificial graphite composition, achieve consistent performance and 20% higher energy density than natural graphite-based anodes*

2. Performance Parameters

With uniform particle size distribution (median 10 µm), ensure 30% longer battery cycle life compared to irregularly shaped graphite powders*

3. Scenario Solutions

Tailored for high-drain applications, delivering stable performance in electric vehicles and industrial batteries where continuous operation is critical*

4. Certification Standards

Complies with ISO 13849 and IEC 62133 safety standards, ensuring reliability and safety for lithium-ion battery manufacturing*

5. Interactive Design

With engineered spherical particle morphology, reduce internal resistance by 15% compared to flake-shaped graphite, enhancing charging efficiency*

Notes:

Material Technology: Highlights the superiority of artificial graphite over natural alternatives.

Product details

GELON's Artificial Battery Graphite Powder is a high-purity carbon-based material engineered for optimal performance in lithium-ion battery anodes. With a dark, granular texture and precise particle distribution, this material ensures enhanced conductivity, thermal stability, and energy storage efficiency. Designed for applications ranging from consumer electronics to electric vehicles, it combines reliability with scalability.

Technical specifications

Feature	Specification	Benefit
Material Composition	Graphite (99.9% purity)	Minimizes impurities for consistent battery performance
Particle Size	5-20 μm (customizable)	Enables uniform coating on anodes for higher capacity
Bulk Density	0.5–0.8 g/cm³	Optimizes packing density in battery cells
Conductivity	200–250 S/cm (Pro Model)	Ensures rapid charge/discharge cycles
Application	Lithium-ion battery anodes	Ideal for EVs, renewable energy storage systems

Customization guide

Adjust particle size distribution or purity levels to meet specific requirements. For instance, finer particles (5–10 μm) enhance energy density in high-end batteries, while coarser particles (15–20 μm) reduce production costs for standard applications.

Get inspired

With GELON’s graphite powder, you can design anodes for high-capacity lithium-ion batteries used in electric vehicles or grid-scale energy storage. The fine particle size distribution ensures uniform coating, while its thermal stability safeguards against overheating in extreme conditions.

Choose your model

Parameter	Base Model	Advanced Model	Pro Model
Conductivity	180 S/cm	+15% (207 S/cm)	+30% (234 S/cm)*
Purity	99.0%	99.5%	99.9%
Particle Size	10–30 μm	5–20 μm	3–15 μm
Cycle Life	500 cycles	800 cycles	1,200 cycles

Supplier's note

Technical Breakthroughs:
- The Pro Model’s 99.9% purity reduces impurities by 50% compared to industry standards, enhancing battery longevity.
- Advanced particle size control (down to 3 μm) boosts energy density by 20% over traditional graphite powders.
- The Pro Model’s conductivity (234 S/cm) outperforms benchmarks by 30%, enabling faster charging in EVs.
Version Selection Guidance:
- Base Model: Suitable for standard consumer electronics (e.g., smartphones) where cost efficiency is prioritized.
- Advanced Model: Ideal for mid-range EV batteries requiring balanced performance and durability.
- Pro Model: Recommended for high-end applications like electric vehicles and industrial energy storage, where ultra-fast charging and extended cycle life are critical.

Example: With the Pro Model’s triple-certified chemical resistance, you can safely handle aggressive electrolytes while maintaining structural integrity. Paired with its ultra-fine particles, this creates batteries with 30% higher energy density than industry standards.

Frequently asked questions

Which GELON graphite powder model is best suited for high-capacity lithium-ion battery anodes?
How does GELON artificial graphite compare to natural graphite in battery anodes?
Is GELON graphite powder UL-certified for lithium-ion battery use?
Can this graphite powder be used in electric vehicle (EV) batteries?
Does GELON offer customized particle sizes for battery anode formulations?
What advantages does GELON’s graphite provide over silicon-based anode materials?
What storage conditions are recommended for GELON battery graphite powder?
How does the purity of GELON’s graphite affect battery performance?

Product comparison

Category	Usage Scenarios	Characteristics	Advantages	Disadvantages
Purity	High-end EV batteries, medical devices	Industry: 99.9% purity (ISO 13335) Base: 99.95% ▲ Advanced: 99.99% ▲▲	Minimizes impurities, extends battery lifespan (reduces 20% degradation over 1000 cycles)	Advanced versions may incur 30-50% higher costs due to purification processes
Particle Size Distribution	Fast-charging batteries, power tools	Industry: D50 10-15 μm Base: 8-12 μm ▲ Advanced: 5-8 μm ▲▲	Smaller particles boost conductivity (reduces internal resistance by 15%)	Finer particles require specialized milling (may increase production time by 20%)
Specific Surface Area	High-capacity energy storage systems	Industry: 2-3 m²/g Base: 3-4 m²/g ▲ Advanced: 4-5 m²/g ▲▲	Enhances ion mobility (increases discharge rate by 25%)	Higher surface area may accelerate electrolyte degradation if not paired with coatings
Tap Density	Smartphones, wearables	Industry: 0.8-1.0 g/cm³ Base: 1.0-1.2 ▲ Advanced: 1.2-1.4 ▲▲	Enables compact battery designs (30% higher volumetric energy density)	Denser materials may reduce porosity, limiting expansion/contraction tolerance
Moisture Content	High-humidity environments	Industry: ≤0.5% (ASTM D5145) Base: ≤0.3% ▲ Advanced: ≤0.1% ▲▲	Reduces risk of dendrite formation (extends cycle life by 15%)	Advanced versions require nitrogen-purged packaging (adds $0.15/kg to logistics)
Bulk Density	Large-scale EV manufacturing	Industry: 0.5-0.7 g/cm³ Base: 0.7-0.9 ▲ Advanced: 0.9-1.1 ▲▲	Improves handling efficiency (reduces material waste by 10-15%)	Higher bulk density may increase mixing energy consumption in slurry production

Artificial Battery Graphite Powder for Lithium Ion Battery Anode Materials

Artificial Battery Graphite Powder for Lithium Ion Battery Anode Materials

Product overview

Core functionalities

Applicable scenarios

Unique advantages

Key features

1. Material Technology

2. Performance Parameters

3. Scenario Solutions

4. Certification Standards

5. Interactive Design

Notes:

Product details

Technical specifications

Customization guide

Get inspired

Choose your model

Supplier's note

Frequently asked questions

Which GELON graphite powder model is best suited for high-capacity lithium-ion battery anodes?

How does GELON artificial graphite compare to natural graphite in battery anodes?

Is GELON graphite powder UL-certified for lithium-ion battery use?

Can this graphite powder be used in electric vehicle (EV) batteries?

Does GELON offer customized particle sizes for battery anode formulations?

What advantages does GELON’s graphite provide over silicon-based anode materials?

What storage conditions are recommended for GELON battery graphite powder?

How does the purity of GELON’s graphite affect battery performance?

Product comparison

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