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Toward <i>Operando</i> Structural, Chemical, and Electrochemical Analyses of Solid-State Batteries Using Correlative Secondary Ion Mass Spectrometry Imaging

Luca Cressa, Yanyan Sun, Dustin Andersen, Mathieu Gérard, Olivier De Castro, Dennis Kopljar, Maryam Nojabaee, K. Andreas Friedrich, Guido Schmitz, Tom Wirtz, Santhana Eswara

2023Analytical Chemistry12 citationsDOIOpen Access PDF

Abstract

High Resolution Image Download MS PowerPoint Slide The global transition from fossil fuels to green energy underpins the need for efficient and reliable energy storage systems. Advanced analysis and characterization of battery materials is not only important to understand fundamental battery properties but also crucial for their continued development. A deep understanding of these systems is often difficult to obtain through only pre- and/or post-mortem analyses, with the full complexity of a battery being hidden in its operational state. Thus, we have developed an operando methodology to analyze solid-state batteries (SSBs) structurally as well as chemically before, during, and after cycling. The approach is based on a specially designed sample holder, which enables a variety of electrochemical experiments. Since the entire workflow is performed within a single focused ion beam scanning electron microscope equipped with an in-house developed magnetic sector secondary ion mass spectrometer, we are able to pause the cycling at any time, perform analysis, and then continue cycling. Microstructural analysis is performed via secondary electron imaging, and the chemical mapping is performed using the secondary ion mass spectrometer. In this proof-of-concept study, we were able to identify dendrites in a short-circuited symmetric cell and to chemically map dendritic structures. While this methodology focuses on SSBs, the approach can directly be adapted to different battery systems and beyond. Our technique clearly has an advantage over many alternatives for battery analysis as no transfer of samples between instruments is needed and a correlation between the microstructure, chemical composition, and electrochemical performance is obtained directly.

Topics & Concepts

Battery (electricity)ChemistryCharacterization (materials science)Mass spectrometrySecondary ion mass spectrometryNanotechnologyIonProcess engineeringAnalytical Chemistry (journal)Materials scienceEnvironmental chemistryPhysicsEngineeringOrganic chemistryChromatographyQuantum mechanicsPower (physics)Advancements in Battery MaterialsAdvanced Battery Technologies ResearchAdvanced Battery Materials and Technologies