Analytical Solutions for Lithium-Ion Batteries
Guides | 2025 | ShimadzuInstrumentation
Shimadzu analytical instruments support critical evaluation of Li-ion battery components and processes enabling high performance, safety, and sustainability in EV and energy storage applications.
This whitepaper presents an integrated suite of analytical methods for raw material R&D, manufacturing control, degradation analysis, and recycling assessment across battery lifecycle stages.
Comprehensive evaluation at each stage revealed how material properties influence electrode density, separator integrity, electrolyte composition, cell assembly quality, and recyclate purity.
Shimadzu analytical solutions provide an end-to-end platform for material characterization, process optimization, and lifecycle analysis, supporting the development of safer and more sustainable Li-ion batteries.
No formal references were provided in the source document.
Particle size analysis, GD/MP/ICP-AES, X-ray, Microscopy, FTIR Spectroscopy, Mechanical testing, GC/MSD, GC/SQ, HPLC, Ion chromatography, LC/MS, LC/SQ
IndustriesEnergy & Chemicals
ManufacturerShimadzu
Summary
Significance of Analytical Solutions for Lithium-Ion Batteries
Shimadzu analytical instruments support critical evaluation of Li-ion battery components and processes enabling high performance, safety, and sustainability in EV and energy storage applications.
Objectives and Study Overview
This whitepaper presents an integrated suite of analytical methods for raw material R&D, manufacturing control, degradation analysis, and recycling assessment across battery lifecycle stages.
Methodology and Instrumentation
- Particle Properties: SALD-2300 laser diffraction analyzer, iSpect DIA-10 image analysis
- Elemental Analysis: ICPE-9820 multitype ICP, EDX-7200 XRF spectrometer
- Organic and Inorganic Speciation: AIRsight FTIR/Raman microscope, GCMS-QP2050, Nexis GC-2030, HIC-ESP anion chromatograph, LCMS-2050
- Physical and Thermal Testing: AGX-V2 universal tester, EZ Test, DTG-60 TG-DSC system
- Microstructure and Imaging: inspeXio SMX-225CT X-ray CT, EPMA-8050G, SPM-Nanoa AFM/SPM
- Surface Chemical Bonds: AXIS Supra+ XPS
Main Findings and Discussion
Comprehensive evaluation at each stage revealed how material properties influence electrode density, separator integrity, electrolyte composition, cell assembly quality, and recyclate purity.
Benefits and Practical Applications
- Enhanced quality control for consistent battery performance
- Optimization of manufacturing parameters to improve energy density and safety
- Robust degradation studies and accelerated aging analysis
- Efficient recycling workflows and contaminant monitoring
Future Trends and Opportunities
- In-line and real-time analytics for process monitoring
- Advanced evaluation tools for all-solid-state systems
- Automation and AI-driven data interpretation
- Closed-loop recycling and sustainable raw material sourcing
Conclusion
Shimadzu analytical solutions provide an end-to-end platform for material characterization, process optimization, and lifecycle analysis, supporting the development of safer and more sustainable Li-ion batteries.
References
No formal references were provided in the source document.
Content was automatically generated from an orignal PDF document using AI and may contain inaccuracies.
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