High-energy density Semisolid state Lipo pouch cell
Application
By replacing rigid steel casings with advanced Aluminum Laminated Film (ALF), our pouch cells deliver a lightweight, high-energy alternative that redefines what is possible in battery design and widely used in:
Consumer electronics
smartphones, tablets, wearables
Medical Devices
Portable monitors, diagnostic equipment
Energy storage systems
Residential and commercial battery storage
Mobility Solutions
Drones, electric vehicles, robotics
Their lightweight build, compact design, and high packaging efficiency (up to ~95 %) make them a preferred choice for modern energy solutions.
Why Choose Our Pouch Cells?
Maximize your device's potential with superior power-to-weight ratios. Compared to conventional gravimetric energy densities of 200–260 Wh/kg, and volumetric densities exceeding 300 Wh/L,Our pouch cells achieve 380wh/kg,about 750wh/L. Without the dead weight of metal cans, our cells are approximately 50% lighter than traditional cylindrical options, making them essential for high-performance EVs, drones, and portable electronics.
We utilize state-of-the-art Z-Stacking (Lamination) technology rather than traditional winding. This eliminates the "C-corner" stress points found in jelly-roll designs, ensuring uniform internal pressure and electrode alignment. The result is lower internal resistance, reduced risk of deformation, and a significantly longer cycle life for your battery packs.
Break free from standard sizes. Our pouch format supports fully customizable dimensions, with thickness options as slim as 1mm. Whether you need ultra-thin cells for IoT devices or high-capacity modules for grid storage, our flexible form factor adapts to your specific spatial requirements.
The SRL Advantage Safety is our priority. Our cells integrate a cutting-edge Safety Reinforced Layer (SRL). This ultra-thin composite acts as a thermal fuse located between the cathode and current collector. In the event of an internal short or overheating (90°C–130°C), the SRL’s electrical resistance instantly spikes—increasing by ~5,000 Ω per 1°C—to cut off current flow and prevent thermal runaway. This technology has been proven to reduce thermal propagation risks significantly compared to standard cells.
Designed for high-power applications, the large, flat surface area of our pouch cells allows for highly efficient heat dissipation. This prevents localized hot spots during fast charging and heavy usage, ensuring consistent performance and longevity.