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The Heart of Next-Gen mission critical  Power Production

Solidior Power's manufacturing center represents the pinnacle of mission-critical energy technology. Our vision and objective is to architect a resilient and sustainable future through technical precision and high-density storage innovation.

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PROJECT PHASE: INFRASTRUCTURE

The Baltic Gigafactory

This strategic investment in KundziƆsala island, Riga, Latvia, marks a pivotal milestone for Solidior Power Ltd. This state-of-the-art facility will serve as the heartbeat of European battery production, utilizing green energy grids to manufacture the next generation of high-density storage solutions. From precise chemical synthesis to automated assembly, every square meter is engineered for maximum sustainability and logistical efficiency. The company will produce 6.4 GWh per annum of battery storage capacity to be used in data center, telecom, critical infra and defence segments.

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Baltic Gigafactory 

Our manufacturing hub in Latvia leverages cutting-edge automation to produce sustainable, high-density batteries.

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Powering the European  Future

Driving the transition to sustainable energy with locally manufactured, high-efficiency nickel zinc battery technology.

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Grid Solutions

Optimizing renewable battery storage with integrated grid management systems designed for maximum efficiency.

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AI & Clean Technology

Our eco-conscious production and factory systems ensure minimal carbon footprint while delivering peak power battery  performance.

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The  Nickel Zinc Battery 

Nickel‑Zinc (NiZn) batteries offer a compelling alternative to VRLA and lithium‑ion for mission‑critical standby and high‑reliability applications. They combine high power density, superior safety, predictable failure modes, wide temperature tolerance, and simplified regulatory compliance, making them especially well‑suited to data centers, telecom networks, critical infrastructure, and defense systems where availability, safety, and operability outweigh pure energy density. Solidior Power Ltd.  and Æsir Technologies Inc. have signed a technology transfer and license agreement for  manufacturing of the NiZn batteries for the EMEA market. 

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Group 31 Battery

Aviation Battery 

Data center Battery

Why Nickel‑Zinc  Technology Snapshot

  • Chemistry: Nickel oxyhydroxide cathode + zinc anode

  • Nominal cell voltage: ~1.6–1.7 V (higher than lead‑acid and NiMH)

  • Safety profile: Aqueous electrolyte (non‑flammable, no thermal runaway)

  • Materials: No lithium, cobalt, or nickel sulfate dependency

  • End‑of‑life: Recyclable via existing zinc and nickel streams
     

Intrinsic Safety (Key Differentiator)

  • No flammable organic electrolyte

  • No thermal runaway propagation

  • Can be deployed inside white space, outdoor cabinets, and hardened shelters

  • Minimal fire suppression and containment requirements
     

High Power Density for Short‑Duration Backup;  NiZn excels at high‑rate discharge, making it ideal for:

  • UPS ride‑through

  • Generator start buffering

  • Grid‑dip and brownout mitigation

Compared to lithium:

  • Similar or better power output at C‑rates relevant to UPS

  • No need for heavy cooling systems under peak load


Simple Charging & System Integration

  • Compatible with lead‑acid voltage profiles (in many UPS applications)

  • No complex BMS required for safety

  • Predictable SOC behavior

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