FREQUENCY DEPENDENCE OF IONIC CONDUCTIVITY IN ONE-DIMENSIONAL IONIC CONDUCTORS K1.6MG0.8TI7.2O16 AND K(1.6)A(1.6)TI(6.4)O(16)

Yoshikado S.; Watanabe M.; Onoda Y.; Fujiki Y.; Taniguchi I.

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FREQUENCY DEPENDENCE OF IONIC CONDUCTIVITY IN ONE-DIMENSIONAL IONIC CONDUCTORS K1.6MG0.8TI7.2O16 AND K(1.6)A(1.6)TI(6.4)O(16)

机译：一维离子导体K1.6MG0.8TI7.2O16和K（1.6）A（1.6）TI（6.4）O（16）的电导率的频率相关性

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Ion conduction in one-dimensional cationic conductors potassium priderite single crystals K1.6Mg0.8Ti7.2O16(KMTO) and K1.6Al1.6TI6.4O16(KATO) was studied by impedance spectroscopy between 10 Hz to 99 GHz. The real part of the complex conductivity is approximately constant in the microwave frequency region. It is found that two partial thermally activated conduction processes contribute to the ion conduction at microwave frequencies. One corresponds to the ion conduction process across the perturbed intrinsic barriers with a period equal to the lattice constant along a c-axis. [References: 17]

机译：通过10 Hz至99 GHz的阻抗谱研究了一维阳离子导体方铁酸钾单晶K1.6Mg0.8Ti7.2O16（KMTO）和K1.6Al1.6TI6.4O16（KATO）的离子传导。复数电导率的实部在微波频率范围内近似恒定。发现在微波频率下，两个部分热激活的传导过程有助于离子传导。一个对应于经过扰动的本征势垒的离子传导过程，其周期等于沿c轴的晶格常数。 [参考：17]

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来源
《Solid state ionics》 |1995年第1995期|p. 34-39|共6页
作者
Yoshikado S.; Watanabe M.; Onoda Y.; Fujiki Y.; Taniguchi I.;
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DOSHISHA UNIV DEPT ELECTR KYOTO 61003 JAPAN;

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正文语种 eng
中图分类固体物理学;
关键词
Ionic conductivity one-dimensional (kmto), (kato); One-dimensional ionic conductor (kmto), (kato); Hollandite;

机译：一维离子电导率（kmto）;（kato）;一维离子导体（kmto）;（kato）;方沸石;

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1. FREQUENCY DEPENDENCE OF IONIC CONDUCTIVITY IN ONE-DIMENSIONAL IONIC CONDUCTORS K1.6MG0.8TI7.2O16 AND K(1.6)A(1.6)TI(6.4)O(16) [J] . Yoshikado S., Watanabe M., Onoda Y., Solid state ionics . 1995,第0期

机译：一维离子导体K1.6MG0.8TI7.2O16和K（1.6）A（1.6）TI（6.4）O（16）的电导率的频率相关性
2. Non-equilibrium microstructure of Li1.4Al0.4Ti1.6(PO4)(3) superionic conductor by spark plasma sintering for enhanced ionic conductivity [J] . Duan Shanshan, Jin Hongyun, Yu Junxi, Nano Energy . 2018,第期

机译：Li1.4Al0.4Ti1.6（PO4）（3）通过火花等离子体烧结进行离子电导率的超平衡微观结构
3. Ion conduction in one-dimensional ionic conductor A_xGa_8Ga_(8+x)Ti_(16-x)O56 (A = K, Rb, Cs) [J] . Yoshikado Shinzo, Watanabe M., Onoda Y., Solid state ionics . 1999,第1a4期

机译：一维离子导体A_xGa_8Ga_（8 + x）Ti_（16-x）O56中的离子传导（A = K，Rb，Cs）
4. Tuning Ionic Conductivity in Sodium Anti-Perovskite Ionic Conductors [C] . Yiliang Li, Ping-Chun Tsai, Fei Wang, Pacific Rim Meeting on Electrochemical and Solid-State Science . 2020

机译：在抗钙钛矿离子导线中调节离子电导率
5. Synthesis and the characterization of the electronic properties of low-dimensional chalcogenides. Preparation and study of the ionic conductivity of some perovskite-related oxide ion conductors. [D] . Yan, Jianhua. 1996

机译：低维硫族化物的电子性质的合成与表征。某些钙钛矿相关氧化物离子导体的离子电导率的制备和研究。
6. Enhancing grain boundary ionic conductivity in mixed ionic–electronic conductors [O] . Ye Lin, Shumin Fang, Dong Su, -1

机译：增强离子-电子混合导体中的晶界离子电导率
7. Синтез и люминесцентные свойства титанатов висмута Bi-=SUB=-1.6-=/SUB=-Ho-=SUB=-x-=/SUB=-Ti-=SUB=-2-=/SUB=-O-=SUB=-7-delta-=/SUB=- и Bi-=SUB=-1.6-=/SUB=-Mg-=SUB=-0.1-=/SUB=-Ho-=SUB=-x-=/SUB=-Ti-=SUB=-2-=/SUB=-O-=SUB=-7-delta-=/SUB=- [O] . А.В. Ищенко, М.С. Королева, М.И. Власов, 2019

机译：钛酸铋的合成和发光特性Bi-= sub = -1.6 - = / sub = -ho-= sub = -x - = / sub = -ti-= sub = -2 - = / sub = -o- = sub = -7-Δ - = /子= - 和bi-= sub = -1.6 - = / sub = -mg-= sub = -0.1 - = / sub = -ho-= sub = -x - = / sub = - ti-= sub = -2 - = / sub = -o- = sub = -7-delta - = / sub = -
8. Trends in Heavy-Metal Solid State Ionic Conductors: A Comparison of Cu(+), Ag(+), In(+), and Ti(+) Transport [R] . Ammlung, R. L., Scaringe, R. P., Ibers, J. A., 1978

机译：重金属固态离子导体的趋势：Cu（+），ag（+），In（+）和Ti（+）传输的比较

FREQUENCY DEPENDENCE OF IONIC CONDUCTIVITY IN ONE-DIMENSIONAL IONIC CONDUCTORS K1.6MG0.8TI7.2O16 AND K(1.6)A(1.6)TI(6.4)O(16)

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