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Investigation of dielectric relaxation of Molybdenum-Zinc-Selenite glass nanocomposites: temperature and frequency dependency

机译：钼 - 锌硒玻璃纳米复合材料介电弛豫的研究：温度和频率依赖性

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Two bulk glass nanocomposites of xMoO₃(1-x) (0.5SeO₂-0.5ZnO) for x = 0.05, 0.1 and 0.2 compositions have been prepared via slow cooling process of the melt, and the dependency of dielectric properties on temperature and frequency has been studied. The results of the differential scanning calorimetry (DSC) process describes the thermal property of these compositions. The dielectric constant (ε^{/) and the dielectric loss (ε^{//) show an increasing nature with temperature and decrease with frequency. The dynamic conductivity relaxation process is non-Debye type, and the obtained relaxation time shows Arrhenius behavior. The scaled complex electric modulus spectra disclose that the dynamic conductivity relaxation process depends on composition but not depend on temperature.}}

机译：Xmoo的两个散装玻璃纳米复合材料_{3 （1-x）（0.5seo_{2 -0.5ZnO）对于X = 0.05，通过熔体缓慢冷却过程制备了0.1和0.2种组合物，研究了电介质性质对温度和频率的依赖性。差示扫描量热法（DSC）方法的结果描述了这些组合物的热性。介电常数（ε^{/ ）和介电损耗（ε^{// ）显示具有温度和随频率减少的增加的性质。动态电导率松弛过程是非德语类型的，所以获得的弛豫时间显示Arrhenius行为。缩放的复合电模量光谱公开了动态电导率松弛过程取决于组合物但不依赖于温度。}}}}

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《International Conference on Electronics, Materials Engineering and Nano-Technology 》|2019年|1 v.|共5页
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Dipankar Biswas; Anindya Sundar Das; Loitongbam Surajkumar Singh; Rittwick Mondal;
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中图分类工程材料学 ;
关键词
cooling; dielectric losses; dielectric relaxation; differential scanning calorimetry; electrical conductivity; glass; molybdenum compounds; nanocomposites; nanofabrication; permittivity; selenium compounds; zinc compounds;

机译：冷却;介电损耗;电介质松弛;差示扫描量;导电性;玻璃;钼化合物;纳米复合材料;纳米制造;介电常数;硒化合物;锌化合物;

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Investigation of dielectric relaxation of Molybdenum-Zinc-Selenite glass nanocomposites: temperature and frequency dependency

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