Article
Electrode-Electrolyte Interface for Solid State Li-Ion Batteries: Point Defects and Mechanical Strain
Journal of The Electrochemical Society
(2014)
Abstract
In this work, we present an ab-initio investigation of point defects in solid electrolyte γ-Li3PO4 and in negative electrode-electrolyte interface (Li/γ-Li3PO4). Our results on Li defects on γ-Li3PO4 exhibit that Li interstitial defects dominate over vacancy defects, and that Li vacancy-interstitial pair defect formation energy in the interface is comparable to the sum of Li vacancy defect in the electrode and Li ion interstitial defects in the electrolyte region. Our study reveals that the high Li ion defect formation energy is the determining factor for the low ionic conductivity across Li metal/electrolyte interface. Moreover, in a realistic interface, the mechanical strain at the interface increases with the concentration of the impurities produced as a result of the cycling of the battery or due to surface impurities, also affecting the electrostatic potential and charge distribution. Thus, the study of the Li metal/electrolyte interface provides information on the defect formation and mechanical stability and, hence, it helps to understand the realistic modeling of the interface as a way to improve the ionic conductivity and stability of future solid state Li–ion batteries.
Disciplines
Publication Date
September 20, 2014
DOI
10.1149/2.0151411jes
Publisher Statement
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Citation Information
Santosh KC, Roberto C. Longo, Ka Xiong and Kyeongjae Cho. "Electrode-Electrolyte Interface for Solid State Li-Ion Batteries: Point Defects and Mechanical Strain" Journal of The Electrochemical Society Vol. 161 Iss. 11 (2014) p. F3104 - F3110 ISSN: 0013-4651 Available at: http://works.bepress.com/santosh-kc/29/