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Misen
Grade A
67Ah
3.7v
782g
230 × 142 × 11
≥ 2000 times
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MISEN Semi-Solid Lithium Pouch Cell (66Ah / 67Ah) is a high-capacity lithium battery cell developed for applications that require high energy density, improved safety margin, and stable long-term performance.
By adopting a semi-solid electrolyte system, this pouch cell is positioned between conventional liquid lithium-ion cells and next-generation solid-state concepts, offering a practical balance of performance, manufacturability, and reliability.
With a single-cell capacity of up to 67Ah, this pouch cell enables higher energy per cell, helping system designers reduce the number of parallel connections in battery modules. This can simplify electrical design, lower interconnection losses, and improve overall pack consistency, especially important for medium to large battery systems.
Compared with traditional liquid electrolyte pouch cells, the semi-solid electrolyte structure can help enhance thermal stability and operational safety, making the cell suitable for industrial and energy storage environments where reliability, controlled behavior, and long service life are critical.
This product page is intended for engineers, system integrators, and procurement teams evaluating semi solid lithium pouch cell solutions for battery module development. Detailed key features, mechanical design guidance, technical parameters, and application references are provided below to support technical evaluation and project planning.
Semi-solid electrolyte structure: The semi-solid electrolyte system helps improve thermal stability and operational safety compared with conventional liquid electrolyte lithium-ion cells, providing a higher safety margin for industrial and energy storage applications.
High energy density pouch cell design: Optimized laminated pouch structure enables higher energy per unit volume, supporting compact battery module design and efficient space utilization in system integration.
Large single-cell capacity (66Ah / 67Ah): High-capacity cell design reduces the number of parallel connections required in battery modules, helping simplify electrical architecture, reduce interconnection losses, and improve overall pack consistency.
Stable discharge performance: Designed for consistent output under continuous load conditions, supporting applications that require predictable voltage behavior and controlled power delivery over extended operating periods.
Cell grading and matching support: Capacity, OCV, and internal resistance screening can be applied to improve cell-to-cell consistency, which is critical for battery module balancing and long-term system reliability.
Integration-friendly supply for OEM/ODM projects: Suitable for custom battery module development with support for labeling, insulation options, packaging, and technical communication during sample evaluation and mass production stages.
The following specifications are extracted from the product listing information and are provided for engineering evaluation. For mass production projects, final values and tolerances can be confirmed by datasheet and batch test records.
| Item | Specification |
|---|---|
| Brand | MISEN |
| Model number | M67 |
| Product name | Semi-Solid NCM Lithium Pouch Battery Cell |
| Cell type | Semi-solid state lithium-ion pouch cell |
| Chemistry / cathode | NCM (Semi-Solid System) |
| Battery size (nominal) | 3.7V 67Ah |
| Capacity options | 67Ah / 66Ah |
| Nominal voltage | 3.7V |
| Charge cut-off voltage | 4.2V |
| Stable output / discharge capability | ≥ 3C (stable output) |
| Energy density | 320 Wh/kg |
| Cycle life | 1000 cycles |
| Cycle life (test reference) | ≥ 800 cycles (0.5C, 100% DOD, @25°C) |
| Operating temperature (charge) | -20°C to +55°C |
| Operating temperature (discharge) | -30°C to +55°C |
| Dimensions (L × W × T) | 231 × 142 × 11.1 mm |
| Weight | 782 g |
| Recommended applications | Energy Storage Systems (ESS); Industrial Power Systems |
| OEM/ODM | Customized OEM/ODM battery pack support |
| Certifications / documents | CE, RoHS, UN38.3, MSDS, UL, KC, CB |
| Place of origin | Guangdong, China |
Notes: Values above are for reference. For module design, we recommend confirming discharge cut-off voltage, continuous/peak current limits, internal resistance range, and charge method. If you share your target system requirements, we can recommend a suitable operating window and integration guidance.
Missing-but-recommended parameters (you can provide them, and I will update the table immediately): discharge cut-off voltage, standard charge rate (A or C), max charge rate (A or C), max continuous discharge current (A), peak discharge current (A, seconds), internal resistance (mΩ), and typical nominal energy (Wh).
This cell adopts a laminated pouch cell structure designed for module integration. The pouch format is widely used in high energy density battery designs because it supports flexible mechanical layout and efficient thermal interface design. For engineering evaluation, the most important mechanical factors are overall dimensions, thickness tolerance, tab position, and recommended clamping/compression method inside the module.
In practical module design, pouch cells typically require stable mechanical support and controlled compression to maintain consistent performance across cycling. We recommend defining the fixture structure early (compression plates, insulation, busbar routing, and thermal interface materials) to ensure reliable long-term operation and repeatable assembly.
Below is the mechanical summary for quick integration review (values extracted from the listing images). If you have a drawing with tolerance ranges and tab dimensions, we can help check fit and propose a module layout suggestion.
| Mechanical item | Specification |
|---|---|
| Cell form factor | Laminated pouch cell |
| Overall dimensions (L × W × T) | 231 × 142 × 11.1 mm |
| Weight | 782 g |
| Tab structure | Dual tabs (as shown in product photo); exact tab size and material can be confirmed by drawing |
| Recommended module design notes | Use stable clamping/compression, proper insulation, and a consistent thermal interface to improve long-term stability |
Integration checklist (recommended): Please confirm your module internal space, cooling method (air / plate / liquid), busbar connection approach, and target continuous/peak current. We can then advise on fixture structure, compression suggestion, and an optimized layout for your application.
The MISEN semi solid lithium pouch cell (66Ah / 67Ah) is designed for applications that require high energy density, stable output, and an enhanced safety margin. Its large single-cell capacity and semi-solid electrolyte structure make it suitable for battery systems where reliability, consistency, and compact integration are key considerations.
| Application area | Why this pouch cell fits |
|---|---|
| Energy Storage Systems (ESS) | High capacity (67Ah) supports efficient module design and reduces parallel cell count. The semi-solid electrolyte structure helps improve stability and safety margin for stationary energy storage and backup power applications. |
| Industrial Power Systems | Stable discharge capability (≥3C) and consistent output support industrial equipment and power systems that require predictable performance under continuous or moderate load conditions. |
| Battery Modules for OEM / ODM Projects | The pouch cell format allows flexible mechanical layout and thermal management. Capacity grading and matching support help improve module-level consistency for customized battery designs. |
| Specialized Energy Applications | Suitable for projects that prioritize energy density and compact size, such as customized power units and advanced energy solutions, sub |
