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You are here: Home / Publications / Structure Solution of Metal-Oxide Li Battery Cathodes from Simulated Annealing and Lithium NMR Spectroscopy

Kristopher J Harris, Jamie M Foster, Matteo Z Tessaro, Meng Jiang, Xingyi Yang, Yan Wu, Bartosz Protas, and Gillian R Goward (2017)

Structure Solution of Metal-Oxide Li Battery Cathodes from Simulated Annealing and Lithium NMR Spectroscopy

CHEMISTRY OF MATERIALS, 29(13):5550-5557.

Discerning the arrangement of transition metal atoms in Li[NixMnyCoz]O-2 cathode materials has remained an open problem for many years despite the commercial importance of some stoichiometries and the even more promising characteristics of others. We present a method for structural determination in this class of cathode materials. A simple definition of the total energy, based on the chemical principle of electroneutrality, is used in combination with a simulated annealing algorithm to generate model structures. The method reproduces the well-known structure of Li-[Li1/3Mn2/3]O-2 and produces structures of the disordered Li[NixMnxCo1-2x]O-2 phases (where x = 0.02, 0.1, 0.33) that are verified by detailed Li-7 NMR spectra. For each Li[NixMnxCo1-2x]O-2 phase, the solution is found to be heavily disordered, yet retaining significant ion pairing. Since the underlying notion of favoring charge-neutral regions is generic, we anticipate its utility in a much broader family of materials.

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