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Defect Engineering and Anisotropic Modulation of Ionic Transport in Perovskite Solid Electrolyte LixLa(1−x)/3NbO3
Authors:Jinhua Hong  Shunsuke Kobayashi  Akihide Kuwabara  Yumi H. Ikuhara  Yasuyuki Fujiwara  Yuichi Ikuhara
Affiliation:1.Nanostructures Research Laboratory, Japan Fine Ceramics Center, Nagoya 456-8587, Japan; (J.H.); (S.K.); (A.K.); (Y.H.I.);2.Faculty of Engineering, Shinshu University, Nagano 380-8553, Japan;3.Institute of Engineering Innovation, The University of Tokyo, Tokyo 113-8586, Japan
Abstract:Solid electrolytes, such as perovskite Li3xLa2/1−xTiO3, LixLa(1−x)/3NbO3 and garnet Li7La3Zr2O12 ceramic oxides, have attracted extensive attention in lithium-ion battery research due to their good chemical stability and the improvability of their ionic conductivity with great potential in solid electrolyte battery applications. These solid oxides eliminate safety issues and cycling instability, which are common challenges in the current commercial lithium-ion batteries based on organic liquid electrolytes. However, in practical applications, structural disorders such as point defects and grain boundaries play a dominating role in the ionic transport of these solid electrolytes, where defect engineering to tailor or improve the ionic conductive property is still seldom reported. Here, we demonstrate a defect engineering approach to alter the ionic conductive channels in LixLa(1−x)/3NbO3 (x = 0.1~0.13) electrolytes based on the rearrangements of La sites through a quenching process. The changes in the occupancy and interstitial defects of La ions lead to anisotropic modulation of ionic conductivity with the increase in quenching temperatures. Our trial in this work on the defect engineering of quenched electrolytes will offer opportunities to optimize ionic conductivity and benefit the solid electrolyte battery applications.
Keywords:defect engineering   perovskite electrolyte   lithium-ion battery   migration pathway   anisotropic response
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