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ATOMFAIR® a roll of white high-density PP battery separator membrane showing a matte textured sheet extending flat.
High-Density PP Battery Separator 9μm 500m ATOMFAIR® - Image 2

High-Density PP Battery Separator 9μm 500m ATOMFAIR®

$189.95

Institutional Procurement & Supply Compliance: As a verified US supplier, Atomfair accepts formal institutional Purchase Orders (POs), contract billing schedules, and custom procurement loops for university and national laboratories, and corporate R&D departments globally.

Research-grade high-density PP battery separator, 9μm thickness, 500m length, 60mm width, for Li-ion battery R&D. High thermal stability, excellent ionic conductivity. Order now.

SKU: AASEPP0000A4A0
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Description

ATOMFAIR® HIGH-DENSITY POLYPROPYLENE (PP) BATTERY SEPARATOR ROLL

RESEARCH GRADE MATERIAL

Product Overview
Our research-grade polyolefin base membrane establishes ultimate cell-to-cell consistency and serves as an immutable baseline testing control during complex electrochemical evaluation phases. By eliminating structural and chemical variables, this advanced synthesis variant offers an optimized battery separator membrane evaluation platform. Secure competitive dry process PP separator price scaling across all institutional procurement lines today.

Core Specifications & Parameters
Parameter Technical Value
Material Base High-Density Polypropylene (PP)
Primary Function Lithium-ion battery insulation and internal electrode separation
Foil Substrate Thickness 9 μm (Precision gauged high-density profile)
Width Dimension 60 mm Wide Format
Continuous Length 500 m Roll Configuration
Core Properties High mechanical strength, excellent ionic conductivity, outstanding thermal stability
Chemical Resistance Resists systemic degradation from prolonged organic electrolyte exposure
Thickness Customization Available in various alternative custom thicknesses to suit specific battery design criteria

Key Product Features & Benefits
  • High-Density Substrate Material: The crystalline polypropylene structuring delivers robust structural tensile strength, lowering the risk of accidental puncture defects during cell winding operations.
  • Excellent Ionic Conductivity: Facilitates low-impedance transport mechanisms between active anodes and cathodes, raising total full-cell discharge efficiency and capacity margins.
  • Superior Thermal Stability: Specifically engineered to endure intense operating environments and temporary temperature spikes without succumbing to shrinkage.
  • Longer Functional Lifespan: High-grade polyolefin base composition resists chemical decomposition from corrosive battery electrolytes, enforcing data reproducibility.

Target Application Fields
  • Lithium-Ion Battery Prototyping: Vital separation architecture deployed across electric vehicles (EV), portable consumer devices, and renewable energy grids.
  • Large-Scale Energy Storage Systems: Extensively integrated into heavy utility projects where mechanical baseline reliability and power transport efficiency are paramount.
  • Institutional Research & Development: Serves as an uncompromised testing standard for corporate or academic materials science laboratories investigating advanced battery innovations.

QUALITY REGULATION: Microstructural properties and thickness deviations adhere strictly to baseline [ISO 9001 quality validation] frameworks to block experimental baseline drift.
PACKAGING LOGISTICS: Dispatched securely in rolls; use our high-quality materials to elevate ongoing experimental performance.
STORAGE RECOMMENDATIONS: Store inside a cool, dry environment completely isolated from high humidity and direct ambient moisture to preserve pristine material integrity.
IMPORTANT NOTICE: Transfer and handle separator roll matrices inside cleanroom environments to protect porous boundaries from ambient particulate pollution. For customized width variants, alternative thickness steps, or bulk institutional quotation parameters, reach out to our team at support@atomfair.com.

TAILORED SOLUTIONS FOR RESEARCH
Contact our engineering team for technical support or official institutional quotations.
EMAIL: support@atomfair.com

Manufacturer: Atomfair LLC
Brand: ATOMFAIR®

This polypropylene separator must be stored in a cool, dry environment to preserve its material properties. It is chemically resistant to standard lithium-ion battery electrolytes but should be protected from moisture and physical damage during handling.

  • Storage Requirement: Store the separator in a cool, dry environment to prevent moisture-induced degradation and maintain performance.
  • Chemical Compatibility: The separator is compatible with standard lithium-ion battery electrolytes, but avoid contact with strong acids or bases.

How does the 9 μm thickness of this PP battery separator affect its mechanical strength and thermal performance in lithium-ion cells?

The 9 μm thickness maintains high mechanical strength because the high-density polypropylene structure ensures robust durability and resistance to damage during battery operation. It is also designed for thermal stability, withstanding high temperatures without significant degradation, thereby enhancing safety and performance under various operating conditions.

Can this 60 mm wide, 9 μm thick PP separator be integrated into standard research-scale coin cell or pouch cell assemblies?

Yes, the 60 mm width is suitable for both coin cell and pouch cell formats, and the 500 m length provides ample material for multiple experiments. The separator can be cut to custom sizes for various cell geometries, and its chemical resistance ensures compatibility with typical lithium-ion electrolyte systems used in research.

What are the recommended storage and handling conditions for this high-density PP separator to maintain its performance?

The separator should be stored in a cool, dry environment to maintain material integrity and performance. It is supplied in rolls and should be kept away from moisture and heat to preserve its mechanical strength, thermal stability, and chemical resistance during storage.

This 9 μm thick, 500 m long high-density polypropylene separator offers robust mechanical strength, thermal stability, and chemical resistance for lithium-ion battery research and development. It is supplied in rolls and must be stored in a cool, dry environment to preserve integrity, and its application is limited to lithium-ion chemistry systems.

Positive

  • High mechanical strength: The high-density polypropylene structure ensures robust mechanical strength and durability, minimizing damage risk during battery operation.
  • Thermal and chemical stability: Designed to withstand high temperatures and resist electrolyte degradation, enhancing safety and long-term reliability under various operating conditions.

Trade-offs

  • Requires cool, dry storage: Must be stored in a cool, dry environment to maintain material integrity and performance, adding handling constraints in humid or warm labs.
  • Lithium-ion specific application: Explicitly designed for lithium-ion batteries; not validated for other chemistries, limiting its use to Li-ion systems only.

Every advanced material, component, equipment, and instrument in our catalog is backed by rigorous testing. We maintain strict internal quality management frameworks and align with CE conformity metrics to deliver transparent, reproducible performance data via our public open-science repository.

To request raw batch performance data, submit formal vendor registration paperwork, or execute a fast-turnaround R&D manufacturing loop, contact us at inquiry@atomfair.com.

Item is dispatched under the Atomfair Shipping & Delivery Framework (Free worldwide shipping on orders over $59 USD). Return is governed by the Atomfair Return & Refund Policy (7-day technical return window).

Additional information

Weight 1 kg
Dimensions 23 × 16 × 13 cm

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