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Tailoring the morphology of LiCoO2: A first principles study

Tailoring the morphology of LiCoO2: A first principles study
Tailoring the morphology of LiCoO2: A first principles study
Surface energies of several low-index surfaces of layered LiCoO2 are investigated as a function of the external lithium and oxygen chemical potentials by means of First Principles calculations in the generalized gradient approximation (GGA) to density functional theory (DFT), treating on-site electron correlation within the DFT+U framework. We find the set of surfaces contained in the equilibrium shape to be depending on environment. The(0001)and (10 (1) over bar4) surfaces are present for all reasonable values of the Li and O chemical potentials. The (01 (1) over bar2) surface, however, is stable only under oxidizing conditions. The equilibrium shape is sensitive to the equilibration environment because the thermodynamically favorable surface terminations and surface energies of the polar (0001) and (01 (1) over bar2) surfaces are a function of environment. This provides a lever to tailor the crystal shape according to application requirements (e.g., as active material in lithium-ion batteries).
0897-4756
3799-3809
Kramer, Denis
1faae37a-fab7-4edd-99ee-ae4c30d3cde4
Ceder, Gerbrand
92126ca8-d60a-40c2-ac4e-bb40e4ce67af
Kramer, Denis
1faae37a-fab7-4edd-99ee-ae4c30d3cde4
Ceder, Gerbrand
92126ca8-d60a-40c2-ac4e-bb40e4ce67af

Kramer, Denis and Ceder, Gerbrand (2009) Tailoring the morphology of LiCoO2: A first principles study. Chemistry of Materials, 21 (16), 3799-3809. (doi:10.1021/cm9008943).

Record type: Article

Abstract

Surface energies of several low-index surfaces of layered LiCoO2 are investigated as a function of the external lithium and oxygen chemical potentials by means of First Principles calculations in the generalized gradient approximation (GGA) to density functional theory (DFT), treating on-site electron correlation within the DFT+U framework. We find the set of surfaces contained in the equilibrium shape to be depending on environment. The(0001)and (10 (1) over bar4) surfaces are present for all reasonable values of the Li and O chemical potentials. The (01 (1) over bar2) surface, however, is stable only under oxidizing conditions. The equilibrium shape is sensitive to the equilibration environment because the thermodynamically favorable surface terminations and surface energies of the polar (0001) and (01 (1) over bar2) surfaces are a function of environment. This provides a lever to tailor the crystal shape according to application requirements (e.g., as active material in lithium-ion batteries).

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Published date: 2009
Organisations: Engineering Mats & Surface Engineerg Gp

Identifiers

Local EPrints ID: 189745
URI: http://eprints.soton.ac.uk/id/eprint/189745
DOI: doi:10.1021/cm9008943
ISSN: 0897-4756
PURE UUID: a23bd6ed-11fa-4923-9b78-6cc0d95b4037

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Date deposited: 06 Jun 2011 13:57
Last modified: 14 Mar 2024 03:36

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Author: Denis Kramer
Author: Gerbrand Ceder

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