Technical Update: NEO Battery Advances Silicon Anode Technology with Extended Battery Capacity Performance

NEO Battery Materials Ltd.
NEO Battery Materials Ltd.

In This Article:

TORONTO, Aug. 13, 2024 (GLOBE NEWSWIRE) -- (TSXV: NBM) (OTC: NBMFF)

  • Silicon Anode Technology Advancement with Extended Capacity Performance & Sustained Low-Cost Advantage

    • Record-High Battery Performance Metric that Meets or Exceeds Industry Standards and Similar Commercial Products

    • Two-Way Coating Enhancement: Simple, Feasible, and Low-Cost

  • Planned Release of New Silicon-Carbon (Si-C) Anode Product Due to High Working Party & Industry Demand

  • Recycled Silicon Evaluation In-Progress with Lotus Energy & INNOX eco-M Products

  • South Korea Ministry of Science & ICT Certification as Recognized Corporate Research Institute

NEO Battery Materials Ltd. (“NEO” or the “Company”), a low-cost silicon anode materials developer that enables longer-running, rapid-charging lithium-ion batteries, is pleased to announce technological advancements in the Company’s silicon anode technology – longer battery capacity retention while sustaining low costs.

NEO’s engineering team successfully modified the properties of existing additives to achieve the two-way coating enhancements. The new coating methods are simple yet feasible and employ widely-used additives to maintain low manufacturing costs. Implementation improves critical battery cell performance metrics – i) longer capacity retention, ii) higher, steady Coulombic efficiency1 (a measure of capacity retention), and iii) faster-charging rates.

Coulombic efficiency1 is the foremost metric that determines capacity retention in battery cycling tests. NEO’s silicon anode, NBMSiDE?, demonstrated record-high Coulombic efficiency levels that meet or exceed industry standards and similar commercial products. This result demonstrates the product’s potency in full cell2 designs based on pure 100% silicon or silicon-graphite mixture anodes. With optimism in advancements, NEO is reproducing and optimizing the product for the subsequent phases of NBMSiDE? commercialization.

Mr. Spencer Huh, Director, President and CEO of NEO, commented, “We are highly proud of NEO’s engineering team and enthusiastic about the results achieved with our NBMSiDE? products. Incremental improvements are leading to performance milestones. This year, we plan to reach new technology highs with silicon-graphite anodes and in full cells. Additionally, our team has initiated recycled silicon evaluations with Lotus Energy and INNOX eco-M products.”

The two-way coating enhancement also enables NBMSiDE? to be compatible with carbon-based (carbonaceous) materials. This implies that silicon-carbon composite (Si-C) and silicon-graphite anode development are now feasible for full cell designs. Due to mounting working partner and industry demand, NEO Battery Materials will release a new Si-C anode product into the NBMSiDE? portfolio, with sample tests to be conducted soon.