From research labs to production lines, advancing lithium-ion battery technology depends on understanding materials across every scale.
In this joint session, Tescan and Dragonfly Energy will demonstrate how advanced electron microscopy and X-ray microtomography provide detailed 3D insights that accelerate innovation, enhance reliability, and improve manufacturing efficiency.
Key takeaways:
See how SEM, FIB-SEM, and micro-CT support research, quality assurance, and failure analysis
Understand how real-world manufacturers apply these methods to improve performance
Gain insight into a collaborative approach between Tescan and Dragonfly Energy
This session is presented in collaboration with Dragonfly Energy and the Volta Foundation’s Battery Forum, bringing together experts committed to advancing battery science and technology.
Danielle is a Research & Development Engineer at Dragonfly Energy with a background in materials science and engineering. She specializes in advanced characterization techniques to support materials development and lithium-ion battery innovation.
Kimberly is a Senior Technician in the Research and Development Department at Dragonfly Energy, where she supports the advancement of next-generation battery technologies. With a background in Biomedical Engineering, she specializes in image analysis of SEM, FIB-SEM, and micro-CT data.
With a doctoral background in Physical and Materials Engineering from the Brno University of Technology and prior experience as an Application Specialist, Tomas Samoril possesses extensive expertise in electron microscopy, focused ion beam technology, and ToF-SIMS-related applications. He currently serves as a Product Marketing Manager at Tescan
