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A rectangular ATOMFAIR® silicon carbon Si/C anode electrode sheet with distinctive copper-colored metal borders.
Si/C Double-Sided Anode 11 mg/cm² 1350 mAh/g ATOMFAIR® - Image 2
Si/C Double-Sided Anode 11 mg/cm² 1350 mAh/g ATOMFAIR® - Image 3

Si/C Double-Sided Anode 11 mg/cm² 1350 mAh/g 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.

Premium research grade Si/C double-sided anode on carbon-coated Cu foil (12+0.5+0.5 μm), 11 mg/cm² coating, 1350 mAh/g, 90.3% active material, 1.0 g/cm³ compaction. Order now.

Quantity Price
1 – 4 $89.00
5+ $79.00
SKU: AFMSURSV078
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Description

ATOMFAIR® SI/C-D01 SILICON CARBON (1350MAH/G) ELECTRODE SHEET

RESEARCH GRADE MATERIAL

Product Overview
The Atomfair Si/C-D01 is a premium Silicon Carbon electrode sheet designed for advanced Lithium-ion battery R&D. Featuring a double-sided coating with a density of 11 mg/cm² applied via a precision wet process, this material ensures cell-to-cell consistency, baseline testing control, variable elimination, and electrolyte validation platform benefits while nesting target silicon carbon electrode sheet price structures to optimize laboratory validation integrity.

Technical Specifications

PARAMETER DETAILS
1. Core Device & Electrochemical Design
Product Code D01
Capacity 1350 mAh/g
Coating Process Wet Process
2. Anode Parameters
Coating Material Si/C (Silicon Carbon)
Active Material Ratio 90.30%
Coating Density 11 mg/cm2
Coating Area 140 × 80 mm
Coating Type Double-sided
Compaction Density 1.0 g/cm3
3. Substrate & Foil Parameters
Substrate Material Carbon-coated copper foil matrix crystals
Current Collector Density 5.4 mg/cm2
Substrate Thickness 12 + 0.5 + 0.5 μm
Substrate Size 160 × 100 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: Premium Silicon Carbon composite active material yields a high theoretical capacity of 1350 mAh/g with an optimized 90.30% active material matrix for high-energy density electrode research.
  • Enhanced Operational Efficiency: Built on advanced carbon-coated copper foil substrates to enhance interfacial adhesion, optimize electronic contact, and significantly reduce internal contact resistance.
  • Double-Sided Precision Architecture: Uniformly wet-coated on both sides at a precise 11 mg/cm² density to ensure balanced electrochemical activity and mechanical integrity across the 140 × 80 mm active area.
  • Tailored Solutions: Full customization capability comprehensively supports flexible adjustments for localized coating thickness, target width, and individual copper foil structural profiles.

APPLICATION SCOPE: Advanced Lithium-ion battery R&D, material phase evaluation, and systematic electrochemical performance characterization testing.
PACKAGING: 5 electrode sheets per pack, vacuum-sealed to protect the material active state and safeguard batch-to-batch quality constants during laboratory baseline evaluation.
IMPORTANT NOTICE: This product is sold exclusively for laboratory research. Recommended baking protocol: Process and maintain strictly for 12 hours under vacuum at 100°C to completely mitigate moisture contamination or structural degradation before high-stakes thermal validation testing workflows.

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 does the compaction density of 1.0 g/cm³ affect the electrochemical performance of the Si/C-D01 anode with its 1350 mAh/g capacity?

The compaction density of 1.0 g/cm³ is designed to balance electrode porosity and mechanical stability for the 1350 mAh/g Si/C composite active material. This density, combined with the 11 mg/cm² double-side coating, ensures consistent ionic accessibility and electron transport during cycling. Lower or higher densities would alter the trade-off between volumetric energy density and rate capability, but this specific value is optimized for the given coating parameters.

Is the carbon-coated copper foil substrate in the Si/C-D01 anode compatible with standard carbonate-based electrolytes?

Yes, the carbon-coated copper foil is engineered for direct compatibility with lithium-ion battery electrolytes, including standard carbonate formulations. The carbon layer enhances interfacial adhesion and reduces contact resistance between the Si/C coating and the current collector, as specified in the product description. No additional surface treatment is required before cell assembly.

What storage and preconditioning steps are required for the Si/C-D01 electrode sheets before use?

The Si/C-D01 sheets are supplied vacuum-sealed in 5-sheet packs to maintain consistent quality. The manufacturer recommends baking the electrodes for 12 hours under vacuum at 100°C prior to cell assembly to remove residual moisture. Storage should be in a dry, inert atmosphere to preserve electrode integrity.

The Atomfair Si/C-D01 double-sided anode sheet provides a high specific capacity of 1350 mAh/g on a carbon-coated copper foil substrate for advanced lithium-ion battery research, but requires a mandatory vacuum bake at 100°C for 12 hours and is limited to laboratory use only.

Positive

  • High specific capacity Si/C composite: The 1350 mAh/g capacity enables high-energy density electrode research, offering a substantial improvement over conventional graphite anodes for next-generation lithium-ion batteries.
  • Carbon-coated copper foil substrate: The carbon-coated copper foil enhances interfacial adhesion of the active material and reduces contact resistance, contributing to more consistent electrochemical performance during cycling.

Trade-offs

  • Mandatory vacuum baking required: The electrode must be vacuum-baked at 100°C for 12 hours prior to use, necessitating a vacuum oven and extending preparation time before electrochemical evaluation.
  • Research-only usage restriction: This product is sold exclusively for laboratory research purposes, limiting its application to R&D and precluding direct use in commercial battery production.

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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