ProLogium Technology has revolutionized CES 2025 with the unveiling of its fourth-generation lithium-ceramic battery (LCB) system, positioning itself as a leader in innovation for sustainable electrification. Under the title of the speech “Battery Breakthroughs: Redefining the EV Driving Experience”, ProLogium showcased five key advancements addressing the major challenges of the electric vehicle (EV) market: total cost of ownership, range anxiety, and safety.
Fully Inorganic Electrolyte: A Milestone in Battery Technology
ProLogium has developed the first battery with a fully inorganic electrolyte, removing organic components and increasing the inorganic content from 90% to 100%. This breakthrough significantly enhances energy density, charging speed, low-temperature performance, and safety, establishing a new standard for next-generation batteries.
Five Key Innovations of the Fourth-Generation LCB
The new battery addresses major challenges in the EV market, according to a McKinsey report from 2024:
- Increased Range: thanks to an exceptional energy density reaching 380Wh/kg and 900Wh/L.
- Fast Refueling-Style Charging: 60% capacity in 4 minutes and 80% in 6 minutes.
- Reliability in Cold Weather: consistent performance even at -20°C.
- Efficient Heat Dissipation: advanced design that improves thermal stability.
- Superior Safety: eliminates combustion risks due to the non-flammable electrolyte and an active safety mechanism.
Unprecedented Performance
ProLogium surpasses the current limits of lithium iron phosphate (LFP) batteries with a 150% improvement in energy density over three years. This advancement reduces weight and cost while enabling more efficient designs for EVs.
Optimized Performance in Extreme Conditions
The ionic conductivity of the inorganic electrolyte is 2 to 3 times greater than that of traditional liquid batteries, ensuring consistent range in extreme cold. This eliminates uncertainty about performance in adverse weather, a common problem for EV drivers.
Innovations in Safety and Thermal Efficiency
The Active Safety Mechanism (ASM) prevents combustion even under extreme conditions, such as overcharging or temperatures above 300°C. Additionally, ProLogium’s ceramic separator technology enhances heat dissipation, reducing dependence on active cooling systems and increasing energy efficiency.
Commitment to Sustainability
ProLogium is not only transforming the battery market but also driving a sustainable ecosystem. Its circular recycling system achieves over 80% material recovery, adding value to second-hand vehicles and contributing to a future with net-zero emissions.
Collaborations and Future Vision
During his presentation at CES 2025, Vincent Yang, founder of ProLogium, emphasized: “True innovation begins with the core chemistry of batteries. Our goal is not only to solve current issues but also to build a sustainable ecosystem that inspires confidence in consumers and charging station operators.”
The global vice president of FEV, Dr. Thomas Hülshorst, added: “ProLogium’s high-energy-density cells enable smaller and lighter batteries, ideal for EVs. This collaboration with FEV is defining the future of sustainable transportation.”
ProLogium: A Global Leader in Innovation
Since its founding in 2006, ProLogium has been at the forefront of lithium-ceramic battery development, protected by over 900 international patents. With a pilot plant in Taiwan and projects in Europe, including its gigafactory in Dunkirk, France, the company is committed to transforming the landscape of electric mobility worldwide.