In^(3+)Nb^(5+)双取代钙钛矿型锂快离子导体Li_(3x)La_(0.67-x)TiO_3的研究  被引量:1

The study on the substitution In^(3+)and Nd^(5+) into perovskites-type compounds Li_(3x)Ln_(0.67-x)In_y Ti_(1-2y)Nb_yO_3

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作  者:连惠婷[1] 李荣华[2] 王文继[2] 

机构地区:[1]华侨大学材料学院,福建泉州362011 [2]福州大学化学化工学院,福建福州350002

出  处:《功能材料》2006年第10期1575-1577,共3页Journal of Functional Materials

基  金:国家自然科学基金资助项目(5972043);华侨大学校机级基金资助项目(02hjr02)

摘  要:以Li3xLa0.67-xTiO3为母体,通过掺杂经高温固相反应制得了一系列新的锂快离子导体材料Li3xLa0.67-xInyTi1-2yNbyO3。利用X射线衍射分析和交流阻抗技术研究该系统的组成结构和电化学性能。结果表明体系合成温度降低,分解电压提高了;在x=0.10,y<0.050时,合成物为单一的钙钛矿固溶体,y≥0.050时,则存在In2O3杂相;该体系合成物在室温下有较高的电导率,可达5.81×10-4S/cm,活化能在20~30kJ/mol之间。New lithium fast ion conductors of perovskites-type compounds Li3x La0.67-xInyTi1-2yNbyO3 were synthesized and their crystal structure and electrochemistry behavior were characterized, XRD analysis indicated that the synthetics were pure perovskites solid solution in the composition range of x=0.10,y〈0. 050,while a second phase that In2O3 existed at x=0.10,y≥0. 050. A. C. impedance measurements showed their highest ionic conductivity was 5.81×10^-4 S/cm at room temperature and 1.15×10^-2/cm at 523K,its activation energy was 20-30kJ/mol in the range from room temperation to 523K. DC polarizing curver illustrated the electrochemical stability of the synthetics were improve.

关 键 词:锂快离子导体 钙钛矿 In^3+ Nd^5+取代 

分 类 号:O646[理学—物理化学]

 

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