As the demand for energy storage continues to surge, researchers and engineers are turning their attention to sodium-ion batteries as a promising alternative to lithium-ion. In this whitepaper, we explore the growing demand for sodium-ion technology and explain how TWAICE’s sodium-ion battery simulation model can help engineers gain initial insights into this new technology.
Sodium-ion (Na-Ion) battery technology operates on similar principles to lithium-ion batteries, where energy is stored and released through the de-/intercalation of ions in the electrodes.
Unlike lithium, sodium is abundant in nature and widely available, offering a sustainable alternative for energy storage solutions.
Compared to lithium-ion batteries, sodium-ion technology has several compelling advantages and although sodium-ion battery technology is largely still in the research and development phase, significant progress has been made in recent years.
Download the whitepaper and learn more about:
Join our webinar on avoiding battery fires and non-linear aging with the new anode-potential model for faster, safer charging and improved battery lifespan.
Watch recording
Dr. Jonas Keil is the Technical Lead of Battery Analytics at TWAICE. He leads the research & development of battery modeling and data-driven battery algorithms that provide actionable insights into the health, safety & performance of batteries. Before he joined TWAICE in 2020, he was a Research Associate at the Institute for Electrical Energy Storage Technology, Technical University of Munich, Germany. During his research studies, he focused on physicochemical aging modeling and side reaction characterization of linear and nonlinear aging phenomena.
