- Stellantis is set to transform the EV landscape with the 2026 Dodge Charger, leveraging solid-state battery technology developed with Factorial Energy.
- Factorial Energy’s Fest technology offers a 77Ah solid-state battery with a high energy density of 375 Wh/kg, extending driving ranges over 600 miles and reducing charging times to 18 minutes.
- The solid-state batteries are comparably smaller and lighter, weighing 40% less than traditional lithium-ion options, yet deliver superior performance.
- Tested in extreme temperature conditions, these robust batteries are designed for endurance, addressing range anxiety by ensuring high resilience.
- The collaboration started in 2021, with successful trials demonstrating the battery’s potential in vehicles like the Dodge Charger and Mercedes-Benz EQS.
- This innovative battery technology integrates seamlessly with the Stellantis STLA Large platform, paving the way for a future of efficient and thrilling electric vehicles.
As the electric vehicle (EV) revolution charges forward, Stellantis stands poised at the forefront, brimming with ambition and innovation. Their latest endeavor isn’t just another leap forward—it’s a transformation. In 2026, the iconic Dodge Charger will be fueled not by combustion or the widely-used lithium-ion, but by the radical promise of solid-state batteries developed in collaboration with battery innovators at Factorial Energy.
Imagine an EV that embodies speed and endurance, marrying muscle with efficiency. Factorial Energy’s pioneering Fest (Factorial Electrolyte System Technology) doesn’t just promise—it’s set to deliver. The new 77Ah solid-state battery cells boast an energy density of 375 Wh/kg, a game-changer for drivers seeking further on a single charge. It’s not just the energy density that astounds; these solid-state marvels are designed to slash charging times to a mere 18 minutes from nearly empty to a robust 90%.
Visualize the freedom this affords. The solid-state batteries are a third of the size and weigh 40% less than traditional lithium-ion counterparts, yet promise a driving range that can exceed 600 miles. This is akin to reshaping a cacophony into a symphony where size and weight are minimized, yet power and range stretch to meet the horizon.
In their relentless pursuit of perfection, Stellantis and Factorial have achieved the kind of results that rewire expectations. Tested in conditions as extreme as -30°C and as warm as 45°C, these batteries are engineered to conquer a myriad of climates. The robust design promises not just endurance but resilience against the elements, suggesting a world where range anxiety is but a relic of the past.
The collaboration between Stellantis and Factorial, which commenced in 2021, is bearing fruit not only for the Dodge Charger but for automotive titans like Mercedes-Benz as well. Earlier this year, a modified Mercedes EQS validated the power and promise of these solid-state batteries on the open road, showcasing their potential to redefine electric luxury vehicles.
Set against the backdrop of Stellantis’ STLA Large platform—already underpinning industry icons like the Jeep Wagoneer S and the soon-to-arrive Dodge Charger EV—this solid-state battery technology finds its perfect match. It’s a technological tour-de-force, ready to bear the standard as Stellantis crafts an electrified future that’s viable, efficient, and thrilling.
As we stand on the brink of 2026, the message is clear: the electric Dodge is not just another vehicle; it is a harbinger of a new era in mobility. This seamless blend of advanced battery technology with classic automotive muscle crafts a narrative that’s compelling and, above all, inevitable. The road ahead is electric, and thanks to groundbreaking strides in battery technology, it’s more accessible than ever.
Unraveling the Future: Stellantis’ Solid-State Battery Breakthrough and the EV Revolution
Introduction
As the electric vehicle (EV) landscape transforms rapidly, Stellantis is pushing boundaries with its innovative launch plans. By 2026, their flagship Dodge Charger will be powered by next-generation solid-state batteries in partnership with Factorial Energy. This development is set to redefine performance, efficiency, and sustainability in the automotive world.
How Solid-State Batteries Enhance EV Performance
Solid-state batteries, particularly Factorial’s Fest (Factorial Electrolyte System Technology), offer:
1. Increased Energy Density: Sporting an energy density of 375 Wh/kg, these batteries promise a vastly extended range, allowing EVs like the Dodge Charger to exceed 600 miles on a single charge.
2. Rapid Charging Times: With the ability to charge from nearly empty to 90% in just 18 minutes, these batteries address one of the most significant pain points of current EV technology.
3. Weight and Size Efficiency: Solid-state cells are a third of the size and 40% lighter than traditional lithium-ion batteries, resulting in improved vehicle efficiency and performance dynamics.
Advantages and Real-World Use Cases
– Enhanced Durability: Tested in extreme temperatures ranging from -30°C to 45°C, these batteries are built for a multitude of environments, ensuring reliability and consistent performance across climates.
– Cost Savings in the Long Run: While the initial cost might be higher, the battery longevity and reduced charging times predict lower lifetime costs for owners.
– Safety Enhancements: Solid-state batteries offer improved safety compared to liquid electrolyte counterparts due to their reduced flammability, addressing a critical concern for many buyers.
Industry Trends and Market Forecasts
– Growing Collaborations: Stellantis’ cooperation with companies like Factorial Energy illustrates the shift towards strategic partnerships to drive technological advancements in EVs. Mercedes-Benz’s involvement further signals industry-wide interest in solid-state technology.
– Market Projections: According to a report by MarketsandMarkets, the solid-state battery market could exceed $300 million by 2027, driven by increasing demand across automotive, consumer electronics, and energy storage sectors.
Potential Limitations and Challenges
– Production Scale-Up: Scaling the production of solid-state batteries remains a challenge due to complex manufacturing processes and high costs associated with novel materials.
– Initial Costs: The upfront investment for solid-state technology is higher, which might deter some consumers initially.
Security and Sustainability Considerations
– Sustainable Materials: Solid-state batteries require fewer rare earth materials, aligning with environmental sustainability goals.
– Recycling and Disposal: Ongoing research aims to develop efficient recycling methods for solid-state batteries to mitigate potential environmental impacts.
Conclusion and Actionable Recommendations
For consumers keen on adopting EV technology:
– Stay Informed: Keep abreast of Stellantis’ developments and anticipated market releases.
– Consider Long-Term Benefits: Evaluate the solid-state battery’s efficiency and lifespan against initial costs for potential savings in the long run.
– Embrace Future Technology: Be open to the transitions within the automotive industry, as advancements like these are setting new standards for vehicle technology and sustainability.
For more information about Stellantis and its innovations, visit Stellantis.
With all these advancements, the automotive landscape is unequivocally steering towards a thrilling, electric future. As solid-state technologies continue to evolve, they promise to make electric mobility more accessible, efficient, and exhilarating than ever before.