Lab C’s technology portfolio spans multiple advanced battery architectures, each designed to expand the limits of performance.
Lab C’s Low CM Li+ Technology is a cobalt-free, nickel-free system developed through refined cathode chemistry, precision electrolyte engineering and stabilised electrode interfaces. This next-gen lithium-ion technology delivers high energy density, long operational life and superior safety, while offering a materially more resilient supply chain and a lower environmental footprint. It provides a commercially compelling alternative for electric mobility and advanced industrial applications seeking improved performance without exposure to volatile critical-mineral markets.
Our Na⁺suite is the foundation of abundant materials. It deploys Prussian Blue Analogues in layered oxides and high voltage polyanion frameworks. Designed specifically for grid and stationary energy storage, these chemistries offer scalable, cost-effective solutions for renewable integration, peak demand management and large-volume energy infrastructure. Sodium-ion technologies represent a transformative pathway for nations seeking secure, affordable and sustainable long-duration storage capacity without relying on geographically concentrated lithium supply chains.
We advance solid-state and semi-solid electrochemical systems engineered for exceptional safety, energy density and durability. These platforms employ sulfide and oxide solid electrolytes, hybrid polymer architectures and dendrite-suppressing interfaces that enable reliable performance across wide temperature ranges and through extended cycling. Their design makes them suitable for high-performance industrial environments, advanced mobility systems and critical applications where failure tolerance must be near zero
For defence, aerospace and extreme-environment applications, Lab C develops specialised electrochemical systems capable of operating under stringent and high-risk conditions. These include high-rate chemistries engineered for rapid power delivery, radiation-resistant and vacuum-tolerant formulations for space operations, high and low-temperature architectures designed to withstand thermally aggressive industrial environments. These systems provide uncompromising safety, reliability and operational resilience, positioning Lab C as a strategic partner for sovereign defence capability and advanced aerospace programs.
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