In a groundbreaking collaboration, Clarios, the global leader in cutting-edge low-voltage battery solutions, has joined forces with Altris, a trailblazer in sustainable sodium-ion battery technology. This dynamic partnership is set to reshape the future of automotive energy with a focus on crafting state-of-the-art low-voltage sodium-ion batteries.
Every vehicle, from hybrid electric to fully electric, demands a potent low-voltage energy source to fuel critical systems and functions. As the landscape of hybrid and electric vehicles rapidly evolves, the low-voltage network faces increasing demands to support a myriad of software-based functions like steer-by-wire, brake-by-wire, autonomous capabilities, and enhanced in-cabin experiences.
This automotive transformation has spurred a quest for innovative solutions, leading automakers to explore multi-battery setups, including lithium-ion, absorbent glass mat (AGM) lead-acid batteries, and various chemistries for some of the world’s most iconic vehicles. While lead-acid batteries showcase circular economy excellence and lithium-based products evolve, Clarios’ chemistry-agnostic and circular approach has taken centre stage as a strategic imperative.
Enter Sodium-ion (Na-ion) batteries – inherently sustainable and easily recyclable, crafted from salt, wood, iron, and air. These materials are abundant, conflict-mineral-free, and devoid of toxic elements. The groundbreaking collaboration between Clarios and Altris aims to develop an Na-ion battery with a staggering potential of up to 60 volts, catering to automotive applications in both new vehicles and aftermarket replacements. This innovation seamlessly integrates into a multi-battery low-voltage system configuration.
“Fusing Expertise for a Greener Tomorrow: Clarios Leads the Charge in Low-Voltage Sodium-Ion Battery Revolution,” declares Federico Morales Zimmermann, VP and GM, Global Customers, Products, and Engineering at Clarios. Clarios, with its wealth of experience in low-voltage automotive systems, takes the helm in defining and optimising specifications for the sodium-ion cells.
Meanwhile, Altris, a pioneering force in sodium-ion cathode material and battery cell technology, directs its focus towards tailoring Na-ion cells to meet the unique demands of the low-voltage automotive battery market. “Altris envisions a world with superior, safer, and genuinely sustainable sodium-ion batteries. Teaming up with Clarios, who shares our robust ESG focus, is an exciting prospect. Through this partnership, we’re poised to impact every third vehicle globally and expedite the green transition,” enthuses Björn Mårlid, CEO of Altris.
The endgame? Crafting a meticulous production plan for low-voltage battery systems utilising these Na-ion cells. Both companies anticipate that mass production of Na-ion batteries will mark a significant leap forward in automotive battery technology, aligning with the circularity goals of the automotive industry.
Get ready for a paradigm shift in automotive power – where sustainability meets innovation, courtesy of Clarios and Altris. Embrace the future of green mobility!
Q1: What makes sodium-ion batteries special?
A1: Sodium-ion batteries are inherently sustainable, crafted from abundant materials like salt, wood, iron, and air, offering a cleaner and eco-friendly alternative.
Q2: Why is the Clarios-Altris collaboration significant?
A2: This collaboration combines Clarios’ automotive expertise with Altris’ sodium-ion technology, promising a game-changing approach to low-voltage batteries for a greener automotive future.
Q3: How does this partnership contribute to green mobility?
A3: By developing sodium-ion batteries with up to 60 volts, Clarios and Altris are paving the way for sustainable power solutions that support the circularity goals of the automotive industry.
Q4: Will these batteries be available for aftermarket replacements?
A4: Yes, the collaboration aims to provide sodium-ion batteries for both new vehicles and aftermarket replacements, ensuring a broad impact on the automotive landscape.
Q5: What’s the long-term goal of this collaboration?
A5: The ultimate objective is to establish a detailed production plan for low-voltage battery systems, representing a significant advancement in automotive battery technology.