Achieve technology advancements and meet increasing sustainability goals for lithium-ion batteries using the insights provided by ion chromatography analysis. Ion chromatography provides powerful technology for investigating lithium-ion battery impurities and degradation products as well as researching batter raw materials and providing quality assurance testing.
Learn how to quantify dissolved manganese in the electrolyte of a lithium/lithium manganese oxide battery using a reagent-free IC system.
Explore an improved method for determining tetrafluoroborate, perchlorate, and hexafluorophosphate in simulated lithium-ion battery samples.
The versatile Thermo Scientific Dionex ICS-6000 HPIC system offers high pressure and capillary ion exchange chromatography capabilities to identify non-volatile lithium-ion battery electrolyte degradation products. Additionally, when coupled to ICP-MS, it can identify and quantify metal-based degradation species.
The flexible detector configurations of the Thermo Scientific Dionex Integrion HPIC system meet your raw material testing needs in battery mining and refining work. Your teams are enabled to work faster without compromising data quality.
The Dionex ICS-6000 HPIC system is available in three primary formats with additional configurations available for each one. To learn more about our standard bore, microbore, capillary and hybrid systems and request a quote, please visit one of the product pages below:
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