Electrical properties of novel Li_(4.08)Zn_(0.04)Si_(0.96)O4 ceramic electrolyte at high temperatures

S. B. R. S. Adnan; N. S. Mohamed

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Electrical properties of novel Li_(4.08)Zn_(0.04)Si_(0.96)O4 ceramic electrolyte at high temperatures

机译：新型Li_（4.08）Zn_（0.04）Si_（0.96）O4高温陶瓷电解质的电性能

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Novel Li_(4.08)Zn_(0.04)Si_(0.96)O4 electrolyte was synthesized by citric acid-assisted sol-gel method. The compound was studied by X-ray diffraction and complex impedance spectroscopy in the frequency range from 10 Hz to 10 MHz and temperature range from 573 to 773 K. The conductivity-frequency spectra exhibited two regions of conductivity dispersion related to Li~+ ion transport in the bulk and grain boundaries. The activation energy of the bulk conductivity was found to be equal to the activation energy of relaxation frequency in the bulk. This indicated that the increase in conductivity with temperature was due to the increase in ion mobility while the number of charge carrier concentration was found to be constant with selected temperature range.

机译：采用柠檬酸辅助溶胶-凝胶法合成了新型的Li_（4.08）Zn_（0.04）Si_（0.96）O4电解质。通过X射线衍射和复阻抗谱研究了该化合物，其频率范围为10 Hz至10 MHz，温度范围为573至773K。电导率-频谱显示出与Li〜+离子迁移相关的两个电导率色散区域在散装和谷物边界。发现本体电导率的活化能等于本体中弛豫频率的活化能。这表明电导率随温度的增加是由于离子迁移率的增加，而载流子浓度的数量在选定的温度范围内是恒定的。

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《Ionics》 |2014年第11期|共10页
作者
S. B. R. S. Adnan; N. S. Mohamed;
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正文语种 eng
中图分类等离子体物理学;
关键词
Ceramic electrolyte; Ionic conductivity; Relaxation dispersion; Lithium orthosilicate; Solid electrolyte;

机译：陶瓷电解质;离子电导率;弛豫分散;原硅酸锂;固体电解质;

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1. Electrical properties of novel Li_(4.08)Zn_(0.04)Si_(0.96)O4 ceramic electrolyte at high temperatures [J] . S. B. R. S. Adnan, N. S. Mohamed Ionics . 2014,第11期

机译：新型Li_（4.08）Zn_（0.04）Si_（0.96）O4高温陶瓷电解质的电性能
2. Investigation of the Structure and Electrical Properties of (K_xNa_(0.96-x)Li_(0.04)) (Nb_(0.96-y)Ta_ySb_(0.04))O_3 Piezoelectric Ceramics Modified with Manganese [J] . Henry E. Mgbemere, Manuel Hinterstein, Gerold A. Schneider Journal of the American Ceramic Society . 2013,第1期

机译：锰改性的（K_xNa_（0.96-x）Li_（0.04））（Nb_（0.96-y）Ta_ySb_（0.04））O_3压电陶瓷的结构和电性能的研究
3. Effect of Cr3+ Substitutions on Conductivity of Li_4.08+yZn_0.04Cr_ySi_0.96-yO₄ (0.01 ≤ y ≤ 0.03) Ceramic Electrolytes at High Temperature [J] . S.B.R.S Adnan, N.S. Mohamed International Journal of Electrochemical Science . 2015,第1期

机译：Cr 3 + 取代对Li _{4.08 + y Zn _{0.04 Cr _{y Si _{0.96电导率的影响-y O _{4 （0.01≤y≤0.03）高温陶瓷电解质}}}}}
4. Phase Structure, Microstructure and Electrical Properties of BiMnO_3 - Doped (Na_(0.515)K_(0.485))_(0.96)Li_(0.04)(Nb_(0.8)Ta_(0.2))O_3 Lead-Free Ceramics [C] . Pornsuda Bomlai International Conference on Key Engineering Materials and Computer Science . 2013

机译：BimnO_3 - 掺杂的相结构，微观结构和电性能（Na_（0.515）K_（0.485））_（0.96）Li_（0.04）（NB_（0.8）TA_（0.2））O_3无铅陶瓷
5. Study on the Electrical and Dielectric Properties of Polymer Derived SiC Ceramics Pyrolyzed at High Temperatures [D] . Chowdhury, Atiqur Rahman. 2020

机译：高温热解热分裂的聚合物衍生SiC陶瓷的电和介电性能研究
6. Electrical properties of lead-free 0.98(Na0.5K0.5)NbO3-0.02Ba(Zr0.52Ti0.48)O3 piezoelectric ceramics by optimizing sintering temperature [O] . Seung-Hwan Lee, Sung-Gap Lee, Young-Hie Lee 2012

机译：通过优化烧结温度实现无铅0.98（Na0.5K0.5）NbO3-0.02Ba（Zr0.52Ti0.48）O3压电陶瓷的电性能
7. Electrical properties and luminescence properties of 0.96(K0.48Na0.52)(Nb0.95Sb0.05)–0.04Bi0.5(Na0.82K0.18)0.5ZrO3-xSm lead-free ceramics [O] . Wei Li, Jigong Hao, Juan Du, 2020

机译：电性能和发光性能为0.96（k0.48na0.52）（Nb0.95sb0.05）-0.04bi0.5（Na0.82k0.18）0.5zro3-xsm无铅陶瓷

Electrical properties of novel Li_(4.08)Zn_(0.04)Si_(0.96)O4 ceramic electrolyte at high temperatures

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