Laboratory and industrial solutions support lithium ion battery development and production, starting from components testing to final battery quality control.
This application note provides an easy method to determine the hydrofluoric acid (HF) content in a lithium-ion battery electrolyte through acid-base titration with potentiometric indication.
By downloading this application package, you will receive a PDF of the application note as well as the required data for the LabX™ titration software method.
Due to the growing popularity and usage of lithium-ion batteries, the demand for quality maintenance is high. Several parameters need to be optimized, one among which is HF content.
Traces of water in the electrolyte leads to the formation of HF, which is considered as battery poison destroying the electrodes and lowering the capacity. Therefore, HF content in the lithium-ion battery electrolyte should be as low as possible and serves as an important quality indicator.
HF content in battery electrolytes is determined by a simple acid-base titration against sodium hydroxide. The electric potential of the solution is monitored using a Potentiometric Compact Titrator and pH glass sensor to identify the endpoint.
Laboratory and industrial solutions support lithium ion battery development and production, starting from components testing to final battery quality control.