Raman Spectroscopy for Li-ion Battery Material Diagnostics

The performance and safety of lithium-ion batteries (LIBs) are fundamentally linked to the structural and chemical stability of their electrode materials and electrolytes. This presentation explores the application of Raman spectroscopy as a non-destructive, high-resolution diagnostic tool for characterizing the electrode materials. Unlike traditional X-ray diffraction, Raman spectroscopy is very sensitive to local chemical environments, lattice dynamics, and amorphous phases, making it ideal for monitoring postsynthetic impurities, phase transitions, lithium-ion intercalation processes, and possible degradation mechanisms.

The presentation highlights the transition from static characterization to in situ and operando techniques, which allow for real-time observation of ionic transport and structural changes under actual operating conditions. By correlating Raman spectral changes with electrochemical performance, this diagnostic approach provides insights for optimizing material synthesis and further enhancing the energy storage safety.

By attending this webinar, you will:

• Understand how Raman spectroscopy is applied as a non-destructive technique to characterize lithium-ion battery electrode materials and electrolytes.
• Recognize the sensitivity of Raman spectroscopy to local chemical environments, lattice dynamics, amorphous phases, and degradation mechanisms.
• Explain the role of in situ and operando Raman techniques in monitoring phase transitions and lithium-ion intercalation under operating conditions.
• Relate Raman spectral changes to electrochemical performance to support material optimization and battery safety.

Presenter: Dominika Buchberger, PhD (Scientific Project Manager, Laboratory of Energy Storage Technologies and Applied Radiochemistry (LESTAR), Faculty of Chemistry, University of Warsaw)