Combining operando synchrotron X-ray tomographic microscopy and scanning X-ray diffraction to study lithium ion batteries.

Patrick Pietsch,Jens Eller,Wolfgang Ludwig,Michael Hess,Vanessa Wood

doi:10.1038/srep27994

Abstract

We present an operando study of a lithium ion battery combining scanning X-ray diffraction (SXRD) and synchrotron radiation X-ray tomographic microscopy (SRXTM) simultaneously for the first time. This combination of techniques facilitates the investigation of dynamic processes in lithium ion batteries containing amorphous and/or weakly attenuating active materials. While amorphous materials pose a challenge for diffraction techniques, weakly attenuating material systems pose a challenge for attenuation-contrast tomography. Furthermore, combining SXRD and SRXTM can be used to correlate processes occurring at the atomic level in the crystal lattices of the active materials with those at the scale of electrode microstructure. To demonstrate the benefits of this approach, we investigate a silicon powder electrode in lithium metal half-cell configuration. Combining SXRD and SRXTM, we are able to (i) quantify the dissolution of the metallic lithium electrode and the expansion of the silicon electrode, (ii) better understand the formation of the Li15Si4 phase, and (iii) non-invasively probe kinetic limitations within the silicon electrode. A simple model based on the 1D diffusion equation allows us to qualitatively understand the observed kinetics and demonstrates why high-capacity electrodes are more prone to inhomogeneous lithiation reactions.

Highlights

To cite this version: Patrick Pietsch, Michael Hess, Wolfgang Ludwig, Jens Eller, Vanessa Wood
We show that tomographic analysis enables us to quantify the volumetric changes of both electrodes, thereby tracking the dissolution of the lithium electrode and the expansion of the silicon electrode, while scanning X-ray diffraction (SXRD) enables us to locally track the formation of the Li15S4 phase in the electrode
For the SXRD measurements, the beam is focused on a 60 μm-sized spot in the middle of the cell using a set of compound refractive X-ray lenses, and the diffracted beam is collected by a detector in transmission geometry

Summary

Introduction

To cite this version: Patrick Pietsch, Michael Hess, Wolfgang Ludwig, Jens Eller, Vanessa Wood. Combining operando synchrotron X-ray tomographic microscopy and scanning X-ray diffraction to study lithium ion batteries. HAL is a multi-disciplinary open access archive for the deposit and dissemination of scientific research documents, whether they are published or not. We present an operando study of a lithium ion battery combining scanning X-ray diffraction (SXRD) and synchrotron radiation X-ray tomographic microscopy (SRXTM) simultaneously for the first time. This combination of techniques facilitates the investigation of dynamic processes in lithium ion batteries containing amorphous and/or weakly attenuating active materials. Understanding the origins of limitations to lithiation dynamics at the material, electrode, and cell level is crucial to developing next-generation batteries

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