A multiphysics approach to battery development

The race is on to develop next-generation batteries that can overcome the challenges hindering widespread EV adoption. Traditional approaches often fall short, struggling with cost, performance, energy density, and safety issues.

Unlock the potential of a multiphysics approach and discover how it can accelerate your journey toward developing the next generation of batteries. Download our comprehensive ebook to learn more!

Go from molecular to cell level and up to battery pack structural integration

The future of battery technology hinges on advancements in optimizing battery sizing, geometry, chemistry, cell packs, and cooling systems. Traditional approaches struggle to meet the ever-growing demands for cost-effective, high-performing, and safe batteries. This is where an all-in-one multiphysics approach to battery development offers a powerful solution to unlock the next generation of batteries. Connecting the physical and the virtual world supports multi-scale battery modeling and testing, from micro-structure electrochemistry and cell components to battery systems model and overall battery performance evaluation during integration.

Ready to explore the potential of a multiphysics approach to your battery development? Download our free graphic white paper to learn more about the latest advancements and how to leverage them to gain a competitive edge.