Starz Energies’ core innovations focus on enhancing battery performance through integrated systems and material science advancements. Its custom-developed battery packs use lithium-iron phosphate (LFP), nickel manganese cobalt (NMC), and lithium cobalt oxide (LCO), offering tailored energy density and thermal stability. Central are intelligent BMS devices providing real-time diagnostics, predictive analytics, and remote management. Research division in Tunisia prioritizes materials innovation in LTO and supercapacitor-enhanced hybrid systems, combining supercapacitors with LFP for faster charge times and durability. Ongoing advances include optimizing LTO anode materials for improved cycling consistency and safety. The company collaborates with the University of California, Riverside to refine electrolyte and electrode formulations to increase energy density while reducing critical material reliance.
Starz Energies offers customizable battery packs, intelligent battery management systems (BMS), and hybrid storage systems. Battery packs incorporate LFP, NMC, and LCO chemistries. Intelligent BMS devices enable real-time diagnostics, predictive performance analytics, and remote management. Hybrid systems combine supercapacitors with LFP for rapid charging and enhanced durability. In 2025, the company unveiled an LTO anode material achieving 175 mAh/g capacity.
In 2025, Starz Energies unveiled an LTO anode material with a specific capacity of 175 mAh/g and advanced supercapacitor technology using conductive polymers and metal oxides. The Temecula, California production facility became operational in 2024, establishing a North American manufacturing hub. The company collaborates with the University of California, Riverside on electrolyte and electrode development.
Starz Energies is funded by its parent company, Starz Electronics, which provides core funding and technical expertise. The company also relies on internal reinvestment and strategic commercial partnerships instead of external venture capital.
