Defect Control And Lithium-ion Conducting Properties Of Layered Perovskite Oxides Li_2srta_2o_7

Takaaki Fukushima; Shinya Suzuki; Masaru Miyayama

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Defect Control And Lithium-ion Conducting Properties Of Layered Perovskite Oxides Li_2srta_2o_7

机译：层状钙钛矿氧化物Li_2srta_2o_7的缺陷控制和锂离子导电性能

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Lithium-ion conducting properties were investigated for a layered perovskite oxide (LST) and defect-controlled LST, synthesized via solid state reactions. The ionic conductivities of A-site solid solutions Li_2[Sr-(La_(2/3)□_(1/3))-(La_(1/2)Li_(1/2))]Ta_2O_7 (□ denotes vacancy.) suggested that lithium ions migrate in the Li-layer. The conductivity of Li-deficient (Li_(2-z)□_z)(La_zSr_(1-z))Ta_2O_7 increased dramatically from 4.2 × 10~(-6)S cm~(-1) (z = 0, LST) to 1.6 × 10~(-3) S cm~(-1) (z = 0.2) at 400℃ with increasing Li-vacancy concentration. This result obviously indicates that the conductivity of LST originate from the Li migration through vacancies in the Li-layer.

机译：研究了通过固态反应合成的层状钙钛矿氧化物（LST）和缺陷控制的LST的锂离子导电性能。 A位固溶体Li_2 [Sr-（La_（2/3）□_（1/3））-（La_（1/2）Li_（1/2））] Ta_2O_7的离子电导率（□表示空位。）表明锂离子在Li层中迁移。缺锂（Li_（2-z）□_z）（La_zSr_（1-z））Ta_2O_7的电导率从4.2×10〜（-6）S cm〜（-1）急剧增加（z = 0，LST）随着Li空位浓度的增加，在400℃时达到1.6×10〜（-3）S cm〜（-1）（z = 0.2）。该结果显然表明，LST的电导率源自通过Li层中的空位的Li迁移。

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来源
《Key Engineering Materials》 |2009年第2009期|p.69-72|共4页
作者
Takaaki Fukushima; Shinya Suzuki; Masaru Miyayama;
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作者单位

Research Center for Advanced Science and Technology, The University of Tokyo, 4-6-1 Komaba, Meguro-ku, Tokyo 153-8904, Japan;

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正文语种 eng
中图分类工程基础科学;
关键词
layered perovskite; defect control; lithium ion conductivity; lithium ion battery;

机译：层状钙钛矿;缺陷控制;锂离子电导率;锂离子电池;

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Defect Control And Lithium-ion Conducting Properties Of Layered Perovskite Oxides Li_2srta_2o_7

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