Study of electric transport and impedance analysis in copper chloride modified bismuth boro-tellurite glasses

IF 3.2 3区材料科学 Q1 MATERIALS SCIENCE, CERAMICS

Journal of Non-crystalline Solids Pub Date : 2024-11-12 DOI:10.1016/j.jnoncrysol.2024.123301

Komal Poria , Sunil Dhankhar , Rajesh Parmar , R.S. Kundu

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Abstract

CuCl₂ substituted bismuth borate tellurite glasses were examined for electrical conductivity at frequencies between 10⁻¹ Hz and 10⁶ Hz and temperatures between 463 K and 563K. The Almond West law used for fitting experimental data of ac conductivity, and determining cross-over frequency (ω_H), frequency exponent (s), and dc conductivity (σ_dc). Depending on the glass composition, ac conduction process was modeled using correlated barrier hopping and non-overlapping small polaron tunneling. The imaginary component of the electric modulus included in the experimental data fitted by non-exponential Kohlrausch-Williams-Watts. Impedance examination reveals minimization of mixed former effect on electric charge transport at low frequencies in studies glasses. For x = 20, conduction occurs due to charge carriers (Cu²⁺ ions/polarons). An excellent match is found between the Nyquist plots and equivalent circuit models. There is good agreement between the estimated activation energy from conductivity E_C (0.82–1.13 eV), electric modulus E_R (0.81–1.12 eV), and impedance E_Z (0.82–1.15 eV) analyses.

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氯化铜改性铋碲玻璃中的电传输和阻抗分析研究

对 CuCl2 取代的铋硼酸盐碲玻璃在 10-1 Hz 至 106 Hz 频率和 463 K 至 563 K 温度范围内的导电性进行了研究。阿尔蒙德-韦斯特定律用于拟合交流电导率的实验数据，并确定交叉频率 (ωH)、频率指数 (s) 和直流电导率 (σdc)。根据玻璃成分的不同，利用相关势垒跳变和非重叠小极子隧道来模拟交流传导过程。实验数据中包含的电模量虚分量由非指数 Kohlrausch-Williams-Watts 拟合。阻抗检查显示，在研究玻璃中，混合前效应对低频电荷传输的影响最小。当 x = 20 时，传导是由电荷载流子（Cu2+ 离子/极子）引起的。奈奎斯特图和等效电路模型之间的匹配非常好。电导率 EC（0.82-1.13 eV）、电模量 ER（0.81-1.12 eV）和阻抗 EZ（0.82-1.15 eV）分析得出的估计活化能之间存在良好的一致性。

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来源期刊

Journal of Non-crystalline Solids 工程技术-材料科学：硅酸盐

CiteScore

6.50

自引率

11.40%

发文量

576

审稿时长

35 days

期刊介绍： The Journal of Non-Crystalline Solids publishes review articles, research papers, and Letters to the Editor on amorphous and glassy materials, including inorganic, organic, polymeric, hybrid and metallic systems. Papers on partially glassy materials, such as glass-ceramics and glass-matrix composites, and papers involving the liquid state are also included in so far as the properties of the liquid are relevant for the formation of the solid. In all cases the papers must demonstrate both novelty and importance to the field, by way of significant advances in understanding or application of non-crystalline solids; in the case of Letters, a compelling case must also be made for expedited handling.