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高温烧结ZnO陶瓷的实际介电响应:一种微观和光谱学方法。

Realistic dielectric response of high temperature sintered ZnO ceramic: a microscopic and spectroscopic approach.

作者信息

Ibadat Sidra, Younas Muhammad, Shahzada Shaista, Nadeem Muhammad, Ali Tahir, Akhtar Muhammad Javed, Pollastri Simone, Rehman Ubaid-Ur, Yousef Ibraheem, Ali Khan Rao Tahir

机构信息

Department of Physics, Faculty of Basic and Applied Sciences, International Islamic University Islamabad Pakistan.

Physics Division, PINSTECH P.O. Nilore Islamabad 45650 Pakistan

出版信息

RSC Adv. 2020 Aug 18;10(51):30451-30462. doi: 10.1039/d0ra04273k. eCollection 2020 Aug 17.

DOI:10.1039/d0ra04273k
PMID:35516023
原文链接:https://pmc.ncbi.nlm.nih.gov/articles/PMC9056371/
Abstract

High temperature sintering (1200-1400 °C) has been performed on ZnO ceramics. An X-ray Absorption Fine Structure (XAFS) study shows that high sintering temperature introduces a constant amount of V and V defects without any significant effect on the crystal or electronic structure of Wurtzite ZnO. The combined effects of grain boundaries and voids are considered responsible for the apparent colossal dielectric constant (') > 10 at low frequency (∼10 Hz) for all the sintered ZnO ceramics. The superior contact among grains of the ZnO-1200 sample enhances both the interfacial and orientational polarization of the Zn-V dipoles, which results in the increase of low and high frequency dielectric constants (') and the corresponding dielectric loss (tan ) also increases. On the other hand, high temperature sintering of ZnO at 1300 °C and 1400 °C introduces voids at the expense of reduced grain and grain boundary contact areas, thus affecting both the interfacial and orientational polarization with corresponding reduction of dielectric constant (') and dielectric loss. Orientational polarizations due to Zn-V dipoles are suggested to remain fixed and it is the microstructure which controls the dielectric properties of high temperature sintered ZnO ceramics.

摘要

已对ZnO陶瓷进行了高温烧结(1200 - 1400°C)。一项X射线吸收精细结构(XAFS)研究表明,高烧结温度会引入恒定数量的V和V缺陷,而对纤锌矿型ZnO的晶体结构或电子结构没有任何显著影响。对于所有烧结的ZnO陶瓷,在低频(~10 Hz)下出现的表观巨介电常数(')> 10被认为是晶界和孔隙的综合作用所致。ZnO - 1200样品晶粒之间的良好接触增强了Zn - V偶极子的界面极化和取向极化,这导致低频和高频介电常数(')增加,相应的介电损耗(tan )也增加。另一方面,在1300°C和1400°C对ZnO进行高温烧结会引入孔隙,代价是晶粒和晶界接触面积减小,从而影响界面极化和取向极化,导致介电常数(')和介电损耗相应降低。由Zn - V偶极子引起的取向极化被认为保持不变,是微观结构控制着高温烧结ZnO陶瓷的介电性能。

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本文引用的文献

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