Description
[R&D] 1Ah NCM811 / Pure Tin (Sn) Anode Custom Dry Cell
High-Capacity Alloy Anode Research Platform for Next-Gen Energy Density
Product Overview
This product is specifically engineered for advanced research into high-capacity alloy anodes. By pairing a Pure Tin (Sn) anode with a High-Nickel NCM811 cathode, this “Dry Cell” configuration provides a robust platform for investigating volume expansion mitigation, SEI stability, and next-generation high-energy-density battery configurations.
Technical Specifications
| Component | Standard Configuration |
|---|---|
| Nominal Capacity | 1Ah |
| Cathode System | NCM811 (High-Nickel) |
| Anode System | Pure Tin (Sn) |
| Delivery State | Dry Cell (Sealed in Vacuum Pouch) |
Key Customization Options
Anode System Varieties
Options include Tin foil, Sn-based alloys, or specialized Sn-powder coatings with custom binder configurations.
Adjustable Mass Loading
Cathode mass loading and compaction density can be tuned to match specific N/P ratio requirements.
Advanced Componentry
Utilizes specialized current collectors (Cu/Ni) and high-strength ceramic separators to withstand alloy expansion stress.
Ready-to-Test State
Delivered as a vacuum-sealed dry cell, prepared for proprietary electrolyte injection and cycling protocols.
Research Focus Areas
- Volume expansion mitigation in Sn-anodes
- SEI stability on alloy surfaces
- High-nickel cathode compatibility
- Advanced binder performance for Sn-powders
Customization & FAQ
N/P Ratio Tuning: We can provide custom calculations and mass adjustment for NCM811 and Sn systems.
Current Collectors: Options available for Cu, Ni, or specialized carbon-coated foils to optimize interface resistance.
TAILORED SOLUTIONS FOR YOUR RESEARCH
Contact our engineering team to discuss specific coating requirements or to request a technical datasheet.
