Three chemistries,
one control layer.
Most suppliers sell a single cell and call it a product. NexSolid runs three chemistries on one architecture, then governs them with an AI UPS control layer, so each load gets the right blend of power, energy and cost.
Lithium LiFePO₄
High power density and a fireproof cell chemistry. Lithium iron phosphate is the workhorse behind sub-second backup and the highest-demand edges of the load, with a stable cathode that resists thermal runaway.
Sodium-ion
Abundant, safe and cost-stable. Sodium-ion holds up where budgets are tight and ambient temperatures run high, and its supply does not depend on scarce lithium, cobalt or nickel. A strong fit for cost-sensitive and tropical Asia-Pacific deployments.
Solid-state
Next-generation energy density and intrinsic safety. Solid electrolytes remove the flammable liquid entirely. On the roadmap with our Australian university research partners.Roadmap
The 800V hybrid
backup system.
- A power buffer absorbs the spikes. GPU bursts and inrush are handled in milliseconds, so the cells only carry real outages and last far longer.
- 800V efficiency. High-voltage DC cuts copper mass by roughly 45 percent and lifts end-to-end efficiency up to 5 times versus legacy 48V.
- Standards-first. Engineered to IEC 62619, UL 1973 and IEC 62040, with SiC power electronics and full battery management.
- Reclaim the room. Compact, long-life cabinets retire bulky battery rooms and standby generators, freeing floor space and cutting maintenance.
Combined under one AI UPS control layer, the chemistries form the complete backup architecture, from sub-second power to long-duration energy.