Lithium-ion battery separators play a critical role in ensuring safety, performance, and longevity. This webinar explores advanced pore characterization techniques, Capillary Flow Porometry (CFP) and Mercury Intrusion Porosimetry (MIP), used to analyze separator materials. We’ll discuss the differences between through and blind pores, and how these affect battery function. Using experimental data from Celgard monolayer and trilayer separators, we’ll demonstrate how pore size distribution, bubble point, and porosity impact battery design. Attendees will gain insights into how these measurements guide material selection and improve battery reliability.
발표자
- Dr. Julian Hungerford - Senior Applications Scientist, Micromeritics
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Who should attend?
- Battery R&D Scientists and Engineers are involved in materials development and quality assurance.
- Analytical Chemists and Lab Managers seeking advanced tools for particle characterization.
- Quality Control Professionals in the energy storage, automotive, or electronics sectors focused on improving safety and performance standards.
What will you learn?
- Understand the critical role of separator pore structure in lithium-ion battery safety and performance
- Compare and evaluate pore characterization techniques – Capillary Flow Porometry (CFP) and Mercury Intrusion Porosimetry (MIP)
- Apply experimental insights from separator analysis to inform battery design decisions