June 8, 2015
Journal Article

Recent Advances on the Understanding of Structural and Composition Evolution of LMR Cathode for Li ion Batteries

Abstract

Lithium-rich, magnesium-rich (LMR) cathode materials have been regarded as one of the very promising cathodes for Li-ion battery applications. However, their practical application is still limited by several challenges, especially by their limited electrochemical stability rate capability. In this work, we present recent progresses on the understanding of the structural and composition evolution of LMR cathode materials with emphasis being placed on the correlation between structural/chemical evolution and electrochemical properties. In particular, using Li1.2Ni0.2Mn0.6O2 as a typical example, we clearly illustrate the structural characteristics of the pristine materials and their dependence on the materials processing history, cycling induced structural degradation/chemical partition and their correlation with degradation of electrochemical performance. The fundamental understanding obtained in this work may also guide the design and preparation of new cathode materials based on ternary system of transitional metal oxide.

Revised: September 17, 2015 | Published: June 8, 2015

Citation

Yan P., J. Zheng, J. Xiao, C.M. Wang, and J. Zhang. 2015. Recent Advances on the Understanding of Structural and Composition Evolution of LMR Cathode for Li ion Batteries. Frontiers in Energy Research 3. PNNL-SA-107571. doi:10.3389/fenrg.2015.00026