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Nordbatt2019

Disordered transition metal oxide Li-ion electrode materials

  • 26th July 201923rd August 2019
  • by Dorthe B. Ravnsbæk

Presenter: Dorthe B. Ravnsbæk
Title: Disordered transition metal oxide Li-ion electrode materials
Affiliation: University of Southern Denmark

Abstract

Development of electrode materials for intercalation type batteries have in the past focused on highly crystalline materials. However, recent years have seen an increased interest for disordered materials, e.g. with the discovery of multiple high capacity electrodes based on disordered rock-salt structures or even completely amorphous materials exhibiting higher capacities than their crystalline counterparts. Still very little is known about the structural mechanisms behind order-disorder transitions induced by ion-intercalation or about ion-storage mechanisms in disordered materials. 

Using a combination of X-ray scattering, electron microscopy and electrochemical analysis, we have studied a series of high-capacity disordered and amorphous electrode materials such as TiO2, V2O5, MnOx. This allows us to map out the structural evolution during battery charge and discharge at the atomic- and nano-scale, and to understand the ion-storage mechanisms in such materials.

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