Electrical conduction in nanoceramic PGT synthesised by high energy ball milling

SKS Parashar; Swarat Chaudhuri; Satyendra N Singh; Mahmood Ghoranneviss

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Electrical conduction in nanoceramic PGT synthesised by high energy ball milling

机译：高能球磨合成纳米陶瓷PGT的电导

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Nanocrystalline Pb1–3x/2GdxTiO3 (where x?=?0.01) abbreviated as PGT has been synthesised by high energy ball milling at room temperature. X-ray analysis shows that single-phase tetragonal structure of nanocrystalline PGT was formed after 15-h milling. The average crystallite size was found to be 17nm. The frequency-dependent AC conductivity of the PGT ceramic was studied in the range 100°C to 525°C. Complex impedance analysis suggested the dielectric relaxation to be of non-Debye type. The activation energy was found to be 1.04 ev. The mechanism of charge transport in nanocrystalline PGT was successfully explained by correlated hopping model.

机译：缩写为PGT的纳米晶Pb1-3x / 2GdxTiO3（其中x？=？0.01）是在室温下通过高能球磨合成的。 X射线分析表明，研磨15 h后，形成了纳米晶PGT的单相四方结构。发现平均微晶尺寸为17nm。在100°C至525°C的温度范围内研究了PGT陶瓷的随频率变化的交流电导率。复阻抗分析表明介电弛豫是非德拜类型的。发现活化能为1.04ev。相关跳跃模型成功地解释了纳米晶PGT中电荷传输的机理。

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《Journal of theoretical and applied physics》 |2013年第1期|共7页
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SKS Parashar; Swarat Chaudhuri; Satyendra N Singh; Mahmood Ghoranneviss;
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入库时间 2022-08-18 17:22:32

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机译：高能球磨合成纳米陶瓷PGT中的导电

Electrical conduction in nanoceramic PGT synthesised by high energy ball milling

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