In the rapidly evolving world of Electric Vehicles (EVs), the battery chemistry is the ultimate differentiator. UnaECO Systems, backed by world-class Japanese technology and a deep focus on R&D, is defining the next generation of energy storage with our proprietary Hi-LMO™ Battery Technology.
The secret to the superior performance and safety of the Hi-LMO™ cathode material lies in its crystal structure, known as Manganese Spinel (LiMn₂O₄).
Chemical Structure & Stability: Unlike the layered structures (like NMC), which are susceptible to structural breakdown, the Spinel manganese structure is a stable, three-dimensional lattice. This structural strength is retained even in an overcharged state.
**Material Science for High Power: **This stable lattice enables the full and safe diffusion of lithium ions, which is highly advantageous for high-power applications, allowing for extremely rapid charge and discharge cycles.
Safety is paramount, especially in high-temperature operating environments like India. The foundational chemistry of Hi-LMO™ offers industry-leading fire resistance.
Zero Thermal Runaway: Due to the inherent stability of the Spinel crystal structure, Hi-LMO™ Lithium Batteries exhibit “No thermally runaway”. This dramatically reduces the risk of fire or explosion, making the battery exceptionally safe in high temperatures.
Minimal Heat Generation: This stability is proven during operation. Fast charging tests at 4C (120A) show the Hi-LMO™ temperature only rises by approximately 5°C to 10°C, whereas a typical LFP battery temperature rises by more than 20°C.
While layered chemistries are often marketed for theoretical energy density, Hi-LMO™ shines in usable energy density and overall efficiency.
**Exceptional Energy Use: **UnaECO's Hi-LMO™ is highly efficient, allowing up to 92% of the stored energy to be used during high-current (4C/120A) discharging. This is significantly higher than LFP, which could only use about 38% in the same test, making Hi-LMO™ more than 3 times higher efficient.
Competitive Energy Density & Weight: The technology achieves a favorable weight energy density and is significantly lighter, weighing only 1/6th to 1/10th compared to a traditional lead battery.
Ultra-Fast Charging: The extremely low internal impedance of the material enables quick charging, capable of reaching a full charge in approximately 10 minutes.
UnaECO's commitment to Hi-LMO™ Lithium Manganese Oxide represents a strategic choice: prioritizing a stable, safe, and highly efficient battery that is purpose-built for the rigors and demands of the modern EV market.