Large particles and contaminants may cause local hotspots in battery cells, severely impacting safety and performance, making early detection of oversized particles an important analytical requirement.
We will discuss how a combination of dynamic imaging and adaptive Laser diffraction can be used to detect oversized particles down to a few particles per million level.
This webinar will focus on the following key topics:
- Large particles and contaminants in electrode materials
- Laser diffraction for particle sizing
- Dynamic imaging for particle shape analysis and large particle detection
- Adaptive diffraction for large particle detection
発表者
- Dr. Umesh Tiwari - Market Development Manager, Advanced Battery, Malvern Panalytical
詳細
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 risks posed by large particles and contaminants in battery electrode materials and their impact on cell performance and safety.
- Explore the principles and applications of laser diffraction and dynamic imaging for particle size and shape analysis.
- Learn how adaptive diffraction techniques enhance the detection of rare, oversized particles at extremely low concentrations.