Description

ATOMFAIR® 1AH NCM622 CATHODE LITHIUM METAL POUCH CELL

LITHIUM METAL TECHNOLOGY | RESEARCH GRADE MATERIAL

Product Overview

The Atomfair 1Ah NCM622 Cathode Lithium Metal Pouch Cell is a high-performance, research-grade power solution precision-engineered for cutting-edge energy storage studies. It combines a high-nickel NCM622 cathode with a lithium metal anode, delivering exceptional energy density and stability in a dry, flexible pouch format. Unfilled with electrolyte, it offers full experimental freedom for researchers to test innovative materials and configurations under controlled laboratory conditions while ensuring favorable lithium metal pouch cell price metrics for institutions.

Technical Specifications

PARAMETER	VALUE
1. Core Cell Parameters
Nominal Capacity	1.0 Ah
Cathode Material	NCM622 (High-Nickel Matrix)
Anode Material	Lithium Metal
Voltage Range	2.5 V – 4.3 V (Fully Customizable)
Cell Format	Dry Pouch Cell (Electrolyte-Free Structure)
Electrolyte	Not Included – Completely User-Defined
Manufacturing Standards	Processed under strict [strict technical quality validations] compliance conditions, regulating internal stack alignment and layer registration boundaries to eliminate baseline testing anomalies.
Alternative Options	Explore our extended product lines for higher capacities, pre-filled cells, graphite configurations, or alternative high-nickel chemistries. Contact our engineering division for institutional bulk quotes.

Key Features & Advantages

Ultra-High Energy Density Matrix: Premium lithium metal anode pairing enables remarkable specific energy scaling and extended cycle potential.
Advanced Chemistry Interface: High-nickel NCM622 cathode structural framework ensures high capacity, low internal impedance, and high operating voltage.
Dry Pouch Core Flexibility: Complete absence of fluid pre-fills yields full experimental autonomy when characterizing custom liquid, polymer, or solid-state electrolyte systems.
Research-Optimized Homogeneity: Engineered specifically to ensure absolute reproducibility, safety, and performance for material benchmarking and prototyping.

APPLICATION SCOPE: Next-gen Lithium Metal R&D, Solid-state/High-voltage Electrolyte Testing, Anode-free Prototyping, and Academic Investigations.

HANDLING REQUIREMENT: Components carry acute environmental vulnerabilities. Dry cells must be unpacked, handled, and assembled exclusively within an inert atmosphere (glovebox) or deep dry room.

IMPORTANT NOTICE: Designed for research use only. Not for commercial or consumer deployment. Exposed active substrates carry intense moisture sensitivities; assemblies must remain sealed away from ambient air to satisfy **how to fill lithium metal pouch cell** guidelines cleanly. Custom sizes, capacities, and electrode stack configurations are engineered strictly on request. For technical datasheets or bulk order pricing, contact: support@atomfair.com.

TAILORED SOLUTIONS FOR RESEARCH

Contact our engineering team for technical support or official quotations.

EMAIL: inquiry@atomfair.com

Manufacturer: Atomfair LLC

Brand: ATOMFAIR®

Constraints

This dry pouch cell contains a lithium metal anode and requires storage under inert atmosphere to prevent moisture and oxygen exposure. The cell is unfilled with electrolyte and demands user-defined electrolyte selection compatible with both NCM622 cathode and lithium metal.

Storage Constraint: Store the pouch cell in an argon-filled glovebox with low oxygen and moisture levels to maintain lithium metal stability.
Safety Precaution: Handle the pouch cell with insulated tools and inspect the pouch for tears before use to avoid short circuits.

HowTo

Initialize the dry pouch cell by introducing user-defined electrolyte and sealing in an inert atmosphere. Allow the cell to rest for wetting before electrical testing within the specified voltage window.

Required Equipment: Argon-filled glovebox, Pouch heat sealer, Insulated tweezers, Electrolyte dispensing syringe

Transfer to inert atmosphere
Transfer the dry pouch cell into an argon-filled glovebox with low oxygen and moisture levels.
Inject electrolyte
Inject the user-defined electrolyte into the pouch cell through the filling port using a syringe without overfilling.
Seal the pouch
Heat seal the pouch cell immediately after electrolyte injection to prevent moisture ingress.
Rest for wetting
Allow the sealed cell to rest for sufficient time to ensure complete wetting of the electrodes.

FAQ

How does the dry pouch cell format of the Atomfair 1Ah NCM622 battery impact experimental reproducibility compared to pre-filled cells?

The dry pouch cell format offers high reproducibility for material benchmarking and prototyping, as stated in the product description, but requires users to add their own electrolyte, which can introduce variability if not controlled precisely. This trade-off allows full experimental freedom for testing custom liquid, polymer, or solid-state electrolytes, enabling researchers to optimize performance for specific applications.

Can the Atomfair 1Ah NCM622 lithium metal pouch cell be used for solid-state electrolyte testing?

Yes, the dry pouch cell is explicitly described as ideal for custom electrolyte integration including solid-state electrolytes. The NCM622 cathode and lithium metal anode combination, along with the customizable voltage range of 2.5 V–4.3 V, make it suitable for evaluating solid-state electrolyte performance under controlled research conditions.

What are the mandatory handling and storage conditions for the Atomfair 1Ah NCM622 lithium metal pouch cell?

The cell must be handled exclusively in an inert atmosphere or dry room due to the reactive lithium metal anode, as specified in the product description. It is designed for research use only and should be stored in a dry, inert environment to prevent moisture exposure prior to electrolyte filling and testing.

Assessment

The Atomfair 1Ah NCM622 lithium metal pouch cell combines a high-nickel cathode with lithium metal anode for ultra-high energy density, but demands inert atmosphere handling and user-defined electrolyte filling for research applications.

Positive

Ultra-High Energy Density: Lithium metal anode enables remarkable specific energy and extended cycle potential for next-generation research.
Advanced NCM622 Cathode: High-nickel composition ensures high capacity and operating voltage for demanding electrochemical studies.

Trade-offs

Inert Atmosphere Required: Cell must be handled in an inert atmosphere or dry room to prevent degradation of lithium metal anode.
Electrolyte Not Included: Cell is delivered dry; researchers must integrate their own electrolyte formulation, requiring additional preparation.

Quality Standards & Performance Verification

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.

Shipping & Returns

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).