Ab initio study of anisotropic mechanical properties of LiCoO2 during lithium intercalation and deintercalation process

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Date
2016-04-08
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American English
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Office of the Vice Chancellor for Research
Abstract

The mechanical properties of LixCoO2 under various Li concentrations and associated anisotropy have been systematically studied using the first principles method. During the lithium intercalation process, the Young's modulus, bulk modulus, shear modulus, and ultimate strength increase with increasing lithium concentration. Strong anisotropy of mechanical properties between a-axis and c-axis in LixCoO2 is identified at low lithium concentrations, and the anisotropy decreases with increasing lithium concentration. The observed lithium concentration dependence and anisotropy are explained by analyzing the charge transfer using Bader charge analysis, bond order analysis, and bond strength by investigating partial density of states and charge density difference. With the decrease of Li concentration, the charge depletion in the bonding regions increases, indicating a weaker Co-O bond strength. Additionally, the Young's modulus, bulk modulus, shear modulus, and toughness are obtained by simulating ab initio tensile tests. From the simulated stress-strain curves, LixCoO2 shows the highest toughness, which is in contraction with Pugh criterion prediction based on elastic properties only.

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Linmin Wu and Jing Zhang. 2016, April 8. Ab initio study of anisotropic mechanical properties of LiCoO2 during lithium intercalation and deintercalation process. Poster session presented at IUPUI Research Day 2016, Indianapolis, Indiana.
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