HKG Energy’s core technology centers on nanoscale-engineered silicon anode materials offering a theoretical capacity of 3,600 mAh/g versus 350 mAh/g for graphite. Proprietary composite electrodes embed silicon in a matrix to withstand volumetric expansion, enabling over 70% silicon loading. Manufacturing processes are designed for seamless integration with existing lithium-ion production lines, minimizing cost and maximizing scalability. The company operates in the active materials segment, supplying advanced silicon anodes to battery manufacturers and OEMs.
Next-generation silicon anode materials featuring: over 70% silicon loading; nanoscale composite electrode design to mitigate volume expansion; capacity up to 3,600 mAh/g; compatibility with conventional lithium-ion production; enhanced cycle life, energy density, and charging speed for EVs, consumer electronics, and grid storage.
As of early 2025, HKG Energy has focused on refining and scaling its composite electrode technology for commercial-grade batteries, optimizing processes to achieve high silicon loading, improving cycle life and thermal stability, and pursuing partnerships to pilot and validate its technology in electric vehicle and grid storage applications, with formal announcements pending.
Information not available.
