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ATOMFAIR® a roll of reddish copper foil on a brown core, showing a shiny silver metallic lithium laminated sheet extending flat.

Lithium Copper Laminated Foil 10x10cm Battery-Grade ATOMFAIR®

$50.00

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.

Battery Grade lithium copper single-sided laminated foil anode sheets, 10x10cm size, 5 pieces per pack, for high-performance lithium-ion batteries. Order now.

SKU: AFMSMTBX935
Category: ,
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Description

ATOMFAIR® BATTERY GRADE LITHIUM COPPER SINGLE-SIDED LAMINATED FOIL

RESEARCH GRADE MATERIAL

Product Overview
Our research-grade metallic laminated matrix 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 advanced energy storage matrix evaluation platform. Secure competitive lithium copper foil price scaling across all institutional procurement lines today.

Core Specifications & Parameters
Parameter Technical Value
Product Classification Single-Sided Laminated Foil Configuration (Battery Grade)
Material Composition High-purity Lithium (Li) and Copper (Cu) composite matrices
Lamination Interface Single-sided precision lamination with engineered adhesion optimization
Geometry Form Factor Composite foil sheets / continuous strips
Thickness Matrix Fully customizable based on specific project configuration needs
Primary Applications Lithium-ion batteries, energy storage systems, advanced power devices
Electrical Conductivity Superior electronic transport rate for minimizing interface impedance
Thermal Characteristics Excellent thermal stability designed to withstand elevated temperature thresholds

Key Product Features & Benefits
  • Single-Sided Lamination Architecture: Combines active lithium layers onto high-conductivity copper films, optimizing one-sided interface adhesion and mechanical durability.
  • High Energy Efficiency: Accelerates rapid charge transfer and efficient electronic transport pathways, maximizing current collector kinetics.
  • Extended Cycle Performance: Engineered to endure numerous rapid charge-discharge configurations with minimal capacity or layer degradation.
  • Heightened System Safety: Stable thermal and structural properties significantly reduce internal short-circuit hazards and thermal runaway risks.

Target Application Fields
  • Lithium-Ion Batteries: Ideal integrated anode layout for high-density electric vehicles (EV), portable consumer devices, and green energy grids.
  • Energy Storage Solutions: Perfectly compatible with testing loops for residential, commercial, and stationary utility energy management networks.
  • High-Performance Devices: Well-suited for testing advanced, ultra-lightweight electronics demanding stable and reliable power delivery.

QUALITY REGULATION: High-performance composite structures conform strictly to baseline [ASTM alloy standard validation] rules to eliminate testing drift.
HANDLING LOGISTICS: Lithium metal configurations are highly reactive. Appropriate personal protective equipment (PPE) should be used at all times during handling steps.
STORAGE RECOMMENDATIONS: Store inside a cool, dry place completely sealed away from moisture, ambient humidity, and direct solar exposure.
MATERIAL DISPOSAL: Follow applicable regional, local, and institutional environmental regulatory protocols for the safe disposal of metallic reactive items.
IMPORTANT NOTICE: This composite foil must be managed exclusively within an anhydrous inert gas glovebox or hermetically vacuumed environment to prevent surface passivation or moisture degradation. For explicit custom dimension limits, tailored mass loadings, or commercial pricing inquiries, reach out to our team.

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 product contains reactive lithium metal that requires storage under inert atmosphere to prevent oxidation and moisture absorption. The foil lamination provides a protective barrier but does not eliminate the need for controlled environmental handling.

  • Moisture Sensitivity: Exposure to atmospheric moisture can cause rapid lithium corrosion and hydrogen gas generation, posing fire and explosion hazards.
  • Oxygen Sensitivity: Reaction with oxygen can form lithium oxide or peroxide, compromising electrochemical performance and safety.
  • Short-Circuit Risk: The metallic lithium layer can short-circuit if contacted with conductive surfaces, requiring insulated handling tools and storage containers.
  • Thermal Instability: Temperatures above 60°C may initiate thermal runaway reactions, necessitating cool storage away from heat sources.
  • Containment Requirements: Storage must be in sealed, anti-static containers within a dry argon glovebox to maintain chemical integrity.

Safe handling of lithium foil anodes requires strict adherence to inert atmosphere protocols and electrostatic discharge precautions. The following steps outline the initialization and deployment procedure for use in lithium-ion battery assembly.

Required Equipment: Argon-filled glovebox, Antistatic tweezers, Polypropylene storage container, Personal protective equipment (PPE) including nitrile gloves and safety goggles

  1. Prepare Glovebox Environment
    Purge the glovebox with argon to maintain an inert atmosphere with negligible oxygen and moisture levels before introducing the lithium foil.
  2. Inspect Foil Integrity
    Visually examine the foil for any tears, discoloration, or delamination of the lamination layer before handling.
  3. Transfer Foil to Work Area
    Use antistatic tweezers to transfer the foil from its sealed container to the glovebox work surface, avoiding contact with bare skin.
  4. Cut to Required Dimensions
    Use a clean ceramic knife to cut the foil to the desired anode size, ensuring no conductive debris adheres to the lithium surface.
  5. Laminate onto Current Collector
    Press the cut foil onto a copper current collector using even pressure to ensure uniform adhesion without air bubbles.
  6. Store Unused Foil Properly
    Seal any unused foil in an antistatic bag and return to the argon glovebox storage area immediately.
  7. Dispose of Scrap Material
    Collect all scrap lithium foil in a designated waste container filled with mineral oil to prevent airborne reactions.

How does the single-sided lamination design of this lithium copper foil improve cycle life in lithium-ion batteries?

The single-sided lamination improves adhesion on one side, which enhances mechanical durability and reduces the risk of delamination during cycling. This design directly supports the engineered long cycle life by enabling numerous charge-discharge cycles with minimal degradation, as stated in the product description.

Is this single-sided laminated foil intended for use as an anode or cathode in battery cells?

This product is specifically designed as a battery-grade lithium copper anode sheet for lithium-ion batteries. The single-sided lamination on copper foil is optimized for anode configurations, not for cathode applications.

What are the recommended storage conditions for this lithium copper laminated foil to maintain its performance?

The foil should be stored in a cool, dry place away from moisture and direct sunlight to prevent lithium oxidation and preserve thermal stability. Proper storage ensures the material maintains its excellent conductivity and durability for long-term use.

This single-side laminated lithium-copper foil anode sheet delivers high electrical conductivity and thermal stability for lithium-ion batteries, but requires strict moisture-controlled storage and PPE due to lithium reactivity.

Positive

  • Single-sided lamination enhances durability: The single-sided lamination provides improved adhesion on one side, which enhances structural integrity and cycle life in battery assemblies.
  • High electrical conductivity: The combination of lithium and copper ensures efficient electron transfer, boosting overall battery energy density and power output.

Trade-offs

  • Requires PPE during handling: Lithium metal is reactive; appropriate personal protective equipment must be worn to prevent skin or eye contact during handling.
  • Moisture and sunlight sensitivity: The foil must be stored in a cool, dry environment away from moisture and direct sunlight to avoid degradation of the lithium layer.

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).

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