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SrTiO_3压敏电阻的化学蜕变 被引量:2

Chemical Degradation of SrTiO_3-based Varistor
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摘要 借电化学注氢的方法研究了 SrTiO_3 压敏电阻器在潮湿环境中的蜕变机理,即以 SrTiO_3 压敏电阻器的电极作为阴极在 0.01 mol/L NaOH 的溶液中进行水的电解。结果表明:该处理使其漏电流和介质损耗增加,非线性变差,丧失压敏特性。但通过一定的热处理之后,其压敏性能又可恢复。水电解产生的 H 原子向陶瓷颗粒边界扩散、化学吸附,破坏其绝缘阻挡层,造成失效。并对蜕变机理进行了探索。 Water-induced degradation in SrTiO3-based varistor was investigated through an electrochemical hydrogen charging method, in which the silver electrodes of the varistor were made as cathode in 0.01 mol/L NaOH solution to deposit hydrogen by electrolysis of water. Of the varistor, the dielectric loss and the leakage current were dramatically increased, and the nonlinearity obviously decreased after the treatment. It is proposed that adsorbed hydrogen atoms generated by electrolysis of water diffuse along grain boundaries and have reduction reactions with insulating potential barriers, resulting in observed degradation. The degraded properties can be recovered through an annealing in an oxidizing atmosphere. These results are meaningful for understanding and improving the reliability of SrTiO3-based varistor.
作者 李标荣 陈万平 庄严
机构地区 东莞市电子工业总公司 香港理工大学应用物理系 广州新日电子有限公司
出处 《电子元件与材料》 CAS CSCD 北大核心 2005年第2期42-44,共3页 Electronic Components And Materials
关键词 电子技术 SrTiO3基 压敏电阻 化学蜕变 蜕变机理 氢还原 electronic technology SrTiO_3-based varistor chemical degradation degradation mechanism hydrogen reduction
分类号 TN304.93 [电子电信—物理电子学]
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参考文献9

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  • 2李标荣,庄严.再论半导体陶瓷电容器[J].电子元件与材料,2002,21(1):30-34. 被引量:5
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电子元件与材料
2005年 第2期

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