How to Streamline Elemental Analysis of Lithium-ion Battery Samples using an ICP-OES and an Auto-dilutor

Lithium-ion batteries are widely used in electronic devices due to their large capacity, high voltage, light weight, and lack of memory effects. The switch to renewable energy sources and the need for efficient and cost-effective energy storage technologies, has seen increased global demands for lithium-ion batteries and raw materials. Elemental concentration and impurities of these products are important to know, as the elemental composition can impact the performance and lifespan of a battery. 

Join with us to see how a modern ICP-OES and an auto-dilutor can be used together to increase productivity and avoid common challenges with these complex sample matrices.

Presenter: Sima Singha, PhD (ICP-OES Application Scientist, Atomic Spectroscopy, Agilent Technologies, Inc.)

Sima has over fifteen years of hands on experience as an applications scientist in the field of atomic spectroscopy. Before joining Agilent in 2017, managed an agricultural chemistry laboratory for the analysis of water, soil, and plant tissue digests using ICP-OES for various EPA methods. She received a Ph.D. degree in Chemistry from the University of Illinois at Chicago with numerous peer-reviewed publications.