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A rectangular ATOMFAIR® NFPP-S03 sodium iron phosphate pyrophosphate cathode sheet with silver metal borders.
NFPP Sodium Iron Phosphate Electrode Sheet 13 mg/cm² ATOMFAIR® - Image 2
NFPP Sodium Iron Phosphate Electrode Sheet 13 mg/cm² ATOMFAIR® - Image 3
NFPP Sodium Iron Phosphate Electrode Sheet 13 mg/cm² ATOMFAIR® - Image 4

NFPP Sodium Iron Phosphate Electrode Sheet 13 mg/cm² ATOMFAIR®

$89.00

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.

NFPP-S03 sodium iron phosphate electrode sheet, single-side 13 mg/cm², 94.5% active material on 12 μm carbon-coated Al foil. Research grade. Order now.

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1 – 4 $89.00
5+ $79.00
SKU: AFMSOXHR804
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Description

ATOMFAIR® NFPP-S03 SODIUM IRON PHOSPHATE PYROPHOSPHATE (NFPP) ELECTRODE SHEET

RESEARCH GRADE MATERIAL

Product Overview
Atomfair NFPP-S03 Sodium Iron Phosphate Pyrophosphate (NFPP) Electrode Sheet is single-side coated with 13 mg/cm² via a precise wet process. Ideal for sodium-ion battery R&D, this specialized cathode architecture delivers exceptional reliability for electrochemical performance analysis, ensuring cell-to-cell consistency, baseline testing control, variable elimination, and electrolyte validation platform benefits while nesting target sodium iron phosphate pyrophosphate electrode sheet price structures to optimize laboratory validation integrity.

Technical Specifications

PARAMETER DETAILS
1. Core Device & Electrochemical Design
Product Code S03
Capacity 95 mAh/g
Coating Process Wet Process
2. Cathode Parameters
Coating Material NFPP (Sodium Iron Phosphate Pyrophosphate)
Active Material Ratio 94.50%
Coating Density 13 mg/cm2
Coating Area 152 × 110 mm
Coating Type Single-sided
Compaction Density 1.51 g/cm3
3. Substrate & Foil Parameters
Substrate Material Carbon-coated aluminum foil matrix crystals
Current Collector Density 3.63 mg/cm2
Substrate Thickness 12 + 0.5 + 0.5 μm
Substrate Size 186 × 110 mm
4. Compliance & Support
Pack Size 5 sheets/pack
Manufacturing Rules Processed under strict ISO 9001 compliance 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
  • Homogeneous Material Purity: Features an optimized active material ratio of 94.50% to deliver a robust, highly uniform NFPP distribution across half-cell foils testing matrices.
  • Enhanced Operational Efficiency: Built on advanced carbon-coated aluminum foil substrates to maximize electrical contact, optimize boundary interfacial dynamics, and promote material evaluation accuracy.
  • Precision Wet Coating: Precise wet process single-sided coating coordinates an exceptionally uniform 13 mg/cm² loading profile across the 152 × 110 mm active area, securing reliable high-fidelity data outputs.
  • Tailored Solutions: Full customization options available for coating thickness, localized width, and current collector structural profiles to meet exact experimental specifications.

APPLICATION SCOPE: Sodium-ion battery Research and Development (R&D), laboratory testing, material evaluation, and reliable electrochemical performance analysis.
PACKAGING: 5 sheets per pack (Substrate size: 186 × 110 mm), packaged meticulously to ensure consistent quality during laboratory baseline evaluations.
IMPORTANT NOTICE: This product is sold exclusively for laboratory research. Recommended baking protocol: Maintain strictly for 12 hours under vacuum at 100°C to prevent ambient phase contamination or structural degradation before thermal validation.

TAILORED SOLUTIONS FOR RESEARCH
Contact our engineering team for technical support or official institutional quotations.
EMAIL: inquiry@atomfair.com
Manufacturer: ATOMFAIR LLC
Brand: ATOMFAIR®
Disclaimer: Sold exclusively for laboratory research.

How is the electrode sheet baking time determined?

It is 12 hours under vacuum baking at 100°C.

How does the 94.5% active material ratio and 1.51 g/cm³ compaction density influence the achievable specific capacity and electrode porosity trade-off for sodium-ion battery testing?

The high active material ratio of 94.5% maximizes energy density, while the compaction density of 1.51 g/cm³ indicates a moderate packing degree. This combination yields a nominal capacity of 95 mAh/g, providing a balance between ionic transport and volumetric energy. Researchers should expect consistent electrochemical performance under standard testing conditions.

What precautions are necessary when integrating this single-side coated NFPP electrode into coin cells with sodium metal counter electrodes?

The single-side coating on carbon-coated aluminum foil requires careful alignment to avoid short circuits, as the uncoated side is conductive. The 12 μm thick foil with ±0.5 μm tolerance demands uniform pressure during cell assembly to prevent electrode deformation and ensure consistent contact.

The NFPP-S03 electrode sheet delivers a high active material ratio of 94.50% and a precise wet-process coating at 13 mg/cm² on carbon-coated aluminum foil, making it well-suited for sodium-ion battery R&D and reliable electrochemical analysis. Customization of coating and substrate dimensions is available to support varied laboratory requirements.

Positive

  • High active material loading at 94.50%: The 94.50% active material ratio maximizes electrochemically active content per mass, enabling more accurate capacity and rate performance measurements in sodium-ion cell evaluations.
  • Customizable coating and substrate parameters: Coating thickness/width and aluminum foil thickness/width can be tailored on request, allowing the electrode format to be adapted to specific test fixtures or experimental designs.

Trade-offs

  • Requires 12-hour vacuum baking before use: The electrode sheets must be vacuum-baked at 100°C for 12 hours prior to cell assembly, adding a mandatory preconditioning step that extends preparation time and requires vacuum oven infrastructure.
  • Single-sided coating limits cell configuration: As a single-side coated electrode, it is primarily suited for half-cell setups or full cells where a separate counter electrode is used; researchers planning symmetric or double-side configurations must account for this design constraint.

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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