Battery Innovation with Magnetic Resonance

Magnetic resonance technology is a key driver of battery innovation. Join us to explore how Bruker’s Magnetic Resonance solutions are applicable to battery cell manufacturing — from raw materials to post-mortem analysis. As active materials significantly impact battery cost structures, precise and efficient testing is essential. Bruker’s instruments optimize coating uniformity, ensure electrolyte quality, and prevent future failures through advanced HF and water quantification.

These solutions are not developed in isolation: Bruker works together with leading industry players and collaborates closely with academic experts deeply involved in technology transfer. This synergy ensures that innovation is both practical and scalable. Learn how to integrate NMR across R&D and production enhances material analysis, reduces scrap rates, and improves process control. Discover how harmonizing quality standards across the supply chain leads to smarter, data-driven decisions and increased productivity.

Thursday September, 18

• Application example: Slurry characterization using Time-Domain NMR (TD-NMR) - TD-NMR enables non-destructive analysis of slurry homogeneity, viscosity, and solid-liquid interactions, supporting process optimization in electrode manufacturing.
• Benchtop NMR for electrolyte formulation analysis - Compact NMR systems provide rapid, precise quantification of electrolyte components, aiding in formulation consistency and quality control.
• Advanced operando analysis using Solid-State NMR and X-ray Diffraction (XRD)  - Combined solid-state NMR and XRD techniques allow real-time monitoring of structural and chemical changes in battery materials during operation.