Charging-discharging of Cathode Materials in Li-ion Batteries

Application Note B-XRD1009

Introduction

Controlling the state of the charge-discharge process is believed to be crucial for extending the life of lithium ion batteries. Therefore, it is not enough to simply observe the electrode structure in the 100% charged and discharged states, and there is a need to carry out in-situ observation of the relationship between depth of charge, depth of discharge and electrode structure. However, if materials are removed once from sealed batteries, the materials will react with the atmosphere, and the charge-discharge state will change due to peeling of electrodes. Thus there is a risk of the material changing into another structure. As a result, with previous methods, it was difficult to observe changes in materials accompanying charging-discharging via an X-ray diffraction measurement. However, with batteries made using a battery cell attachment, X-ray diffraction can be performed simultaneously with charge-discharge testing. Thus it is possible to carry out evaluation by directly relating changes in the state of samples to charge-discharge characteristics, without performing any additional work on the materials subjected to charge-discharge testing, such as opening seals or peeling electrodes.

Measurements and results

Changes in diffraction patterns in the charge-discharge process of LiFePO₄, an olivine-type cathode material for lithium ion batteries, were observed by using a battery cell attachment. As shown in Figure 1, in the charge process, the diffraction line intensity decreases for LiFePO₄ (the starting material) as the amount of charge increases, and the appearance of the diffraction lines corresponding to FePO₄ confirmed that LiFePO₄ underwent a phase-change to FePO₄ during the charging process. Conversely, it was confirmed that FePO₄ underwent a phase-change to LiFePO₄ in the discharge process. 
B-XRD1009 Figure 1 Phase changes in LiFePO4 accompanying charge-discharge
Figure 1: Phase changes in LiFePO₄ accompanying charge-discharge 

Samples provided by: Dr. Tatsuya Nakamura, University of Hyogo 

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