Electronic Spin Transition in Nanosize Stoichiometric Lithium Cobalt Oxide
Article 2012 en
Authors
DQ
Danna Qian
YH
Yoyo Hinuma
HC
Hailong Chen
Abstract
1 min read
A change in the electronic spin state of the surfaces relevant to Li (de)intercalation of nanosized stoichiometric lithium cobalt oxide LiCo(III)O(2) from low-spin to intermediate and high spin is observed for the first time. These surfaces are the ones that are relevant for Li (de)intercalation. From density functional theory calculations with a Hubbard U correction, the surface energies of the layered lithium cobalt oxide can be significantly lowered as a consequence of the spin change. The crystal field splitting of Co d orbitals is modified at the surface due to missing Co-O bonds. The electronic spin transition also has a significant impact on Co(III)-Co(IV) redox potential, as revealed by the change in the lithium (de)intercalation voltage profile in a lithium half cell.
Malik H. Al‐Afyouni, Elizaveta A. Suturina, Shubhrodeep Pathak, Mihail Atanasov, Eckhard Bill, Daniel E. DeRosha, William W. Brennessel, Frank Neese, Patrick L. Holland
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