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1Ah Ni90 high-nickel cathode and Si/C silicon carbon anode dry pouch cell by Atomfair for high energy density battery research.

ATOMFAIR 1 Ah Ni90 SiC1100 Anode Dry Pouch Cell

$70.00

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.

Buy high nickel dry pouch cell price deals for ATOMFAIR 1 Ah Ni90 SiC1100 Anode Dry Pouch Cell. RoHS compliant. Contact inquiry@atomfair.com.

Quantity Price
1 – 4 $70.00
5 – 19 $139.95
20 – 49 $109.95
50+ $89.95
SKU: AAPO811SICA2A0-1
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Description

ATOMFAIR 1 Ah Ni90 SiC1100 Anode Dry Pouch Cell

RESEARCH GRADE CELL ARCHITECTURE

Product Overview
Engineered for advanced energy storage exploration, this premium un-functionalized ultra-high nickel Ni90 vs. silicon-carbon dry pouch cell serves as a high-fidelity benchmarking matrix for next-generation electrochemical validation. Assembled without liquid electrolyte infusion via a precise 5/6 laminated multi-layer stack layout, it uniquely pairs an elite-capacity 210 mAh/g cathode with an advanced 1100 mAh/g high-capacity SiC1100 composite anode framework. This high-capacity matrix establishes an absolute baseline to successfully drive variable elimination during critical silicon-compatible electrolyte formulation screening, localized volumetric swelling growth modeling, and gas evolution tracking platforms. Secure optimal institutional high nickel dry pouch cell price points for scaled laboratory research.

Technical Specifications

PARAMETER DETAILS
1. Core Device & Device Level Design
Design Capacity Configuration 1.0 Ah (Nominal baseline target after activation)
Target Voltage Operating Window 2.3 V – 4.2 V (High Energy Cutoff Tracking)
Negative-to-Positive Capacity Ratio (NP) 1.080 (Optimized balancing matrix for silicon expansion)
Internal Lamination Stack Matrix 5 / 6 Coated Multilayer Electrodes Arrangement
Separator Film Metric 12 μm PE + 2 μm Al²O³ Ceramic Protective Coating Layer
2. Cathode (Positive Electrode) Parameters
Active Material Chemistry Ni90 System (Ultra-High Nickel Layered Transition Metal Oxide Ni0.9Mn0.03Co0.07)
Cathode Active Mass Fraction 97.4%
Cathode Baseline Specific Capacity 210 mAh/g
Electrode Compaction Density 3.3 g/cc
Single-Side Coating Areal Density 20 mg/cm²
Positive Electrode Geometric Footprint 45.5 mm * 64 mm
3. Anode (Negative Electrode) Parameters
Active Material Chemistry SiC1100 (Advanced High-Capacity Silicon-Carbon Amorphous Matrix)
Anode Active Mass Fraction 90.3%
Anode Baseline Specific Capacity 1100 mAh/g (Elite Power Horizon)
Electrode Compaction Density 1.1 g/cc
Single-Side Coating Areal Density 4.4 mg/cm²
Negative Electrode Geometric Footprint 46.5 mm * 65 mm
Manufacturing Rules Processed under strict RoHS compliant standard conditions
Alternative Options Explore our related catalog or custom dimensions. For urgent technical custom requests or bulk inquiries, please contact our support team.


Key Features & Advantages
  • Advanced High-Capacity SiC1100 Anode: Integrates a cutting-edge high-capacity silicon-carbon layer framework, providing a highly optimized ultra-dense baseline to validate scalable solid-state or liquid chemical interfaces.
  • Ultra-High Nickel Ni90 Cathode Engineering: Reaches an elite compaction density profile of 3.3 g/cc for the advanced Ni0.9Mn0.03Co0.07 active core, maximizing localized energy limits.
  • Advanced Ceramic Separator Shield: Integrates a composite 12 μm PE + 2 μm ceramic layer film to deliver outstanding thermal safety limits under extreme volumetric strain testing.

APPLICATION SCOPE: High-energy silicon-carbon battery benchmarking, custom silicon-compatible liquid electrolyte screening, mechanical stress/expansion validation modeling, and multi-layer laminated cell parameter optimization.
PACKAGING: Vacuum-sealed securely within premium multi-layer barrier laminate pouches to protect un-infused crystalline core lattices from ambient atmospheric contamination.
IMPORTANT NOTICE: Ultra-high nickel un-filled active cell assemblies display supreme chemical affinity to room ambient humidity. Keep all packaging completely sealed until execution. Vacuum thermal baking, final edge trimming, liquid electrolyte injection, and seal closure workflows must be processed strictly inside anhydrous inert-gas glovebox environments to suppress internal phase degradation or short-circuit failures.

Frequently Asked Technical Questions

Why is ATOMFAIR 1 Ah Ni90 SiC1100 Anode Dry Pouch Cell preferred for liquid electrolyte R&D?

The ATOMFAIR 1 Ah Ni90 SiC1100 Anode Dry Pouch Cell functions as a premier solution for next-generation high-energy cell prototyping. It delivers a highly controlled 1 Ah un-functionalized platform integrating an ultra-high nickel Ni90 cathode with an advanced 1100 mAh/g high-capacity silicon-carbon anode, significantly boosting performance metrics and phase purity during laboratory testing workflows.

How to prevent nickel rich dry cell moisture contamination?

To successfully solve how to prevent nickel rich dry cell moisture contamination without secondary contamination, this material must be handled strictly according to inert gas glovebox storage protocols before thermal processing.

What operational stability advantages does this Ni90 vs. SiC1100 dry cell provide under volumetric stress validation?

Compared to standard graphite setups, the optimized matrix of this product incorporates a highly engineered SiC1100 composite network. This unique configuration lowers internal polarization during rapid ion migration while precisely managing particle breathing, providing a highly reliable baseline field up to a 4.2V cutoff to evaluate silicon-compatible custom electrolyte solutions and binding mechanics accurately.

What electrochemical testing benefits do the baseline metrics of this Ni90 configuration offer?

Boasting engineered particle structuring (Cathode: 210 mAh/g | Anode: 1100 mAh/g) and optimized compaction properties, this product offers superior sinterability. The controlled form factor facilitates lower thermal processing thresholds and promotes ideal grain boundary integration during cell fabrication.

How is the phase purity and quality control of this research-grade batch validated?

Every competitive batch undergoes rigid analytical quality validation testing. Total elemental and metallic impurities are strictly regulated below strict industry thresholds to eliminate parasitic electronic leakage and maintain uncompromised data reproducibility.

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

Manufacturer: Atomfair LLC
Brand: ATOMFAIR®

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 for completely unopened items).

Additional information

Weight 0.3 kg
Dimensions 23 × 15 × 3 cm

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