氧离子导体

碱土与过渡金属掺杂氧离子导体的制备与性能

Preparation and Electrical Properties of Alkaline Earth and Transition Metal-Doped Oxygen Ion Conductor

用正电子湮没研究CaO掺杂的CeO2氧离子导体

Use of the Technology of Positron Neglect to Study CaO Doped CeO_2 Oxygen Ion Conductor

Ca掺杂NdGaO3氧离子导体的结构与电学性能

Structures and Electrical Properties of Ca-Doped NdGaO_3 Oxygen-Ion Conductors

Bi2O3基氧离子导体材料的制备及其电导研究

Preparation and conductivity of bi_2o_3 based oxygen ionic conductors

ZrO2基固体氧离子导体的Y2O3、Gd2O3复合掺杂

The Y_2O_3 、 Gd_2O_3 Composite Doping of Zro_2 Solid Oxygen Ion Conductors

Bi2O3-Y2O3-Gd2O3系氧离子导体的制备和电导

Preparation of bi_2o_3-y_2o_3-gd_2o_3 oxide ionic conductor and its electrical conductivity

电泳沉积法制备La2Mo2O9氧离子导体薄膜

Preparation of La_2Mo_2O_9 Oxide-ion Conductor Films by Electrophoretic Deposition

说明掺量ZrO2在较高温度下是一个好的氧离子导体。

So doped ZrO_2 is a good oxygen ionic conductor at higher temperature .

Y2O3稳定的ZrO2氧离子导体的湿化学合成氧化锑/高岭土复合阻燃微粉的湿化学反应动力学及特性

Studies on Wet Chemical Synthesis of Y_2O_3 Stabilized ZrO_2 Wet chemical reaction kinetics and characteristics of ultrafine antimonide oxide / kaolin composite powder

Bi2V（0.9）Cu（0.1-x）SnxO（5.5-δ）氧离子导体的烧结行为、微结构与输运性能研究

Sintering Behavior , Microstructure and Transport Properties of Bi_2V_ ( 0.9 ) Cu_ ( 0.1-x ) Sn_xO_ ( 5.5 - δ) Oxygen-ion Conductor

目前较为成熟的SOFC技术均基于氧离子导体电解质，如稳定氧化锆（YSZ），掺杂氧化铈（DCO）等。

Until now , the more developed SOFCs technologies were all based on oxygen-ion conductors , such like stabilized ZrO_2 ( YSZ ), doped CeO_2 ( DCO ), etc.

微波场对固态氧离子导体上的甲烷氧化偶朕的影响

Microwave Effects on Oxidative Coupling of Methane over Solid Oxygen Ion Conductors

混合氧离子导体膜材料的应用及研究进展

Review on the application and researching development of mixed electronic and oxide ionic conducting membrane materials

LaGaO3基氧离子导体的研究进展

Progress in LaGaO_3-based oxide ion conductor

分析了以氧离子导体作隔离膜时从氧化物熔渣中直接提取金属的电化学还原原理。

The electrochemical reduction principle of direct extraction of metal from molten oxide slags using oxygen ionic conductor as separate membrane was analysed .

采用高温高压法合成了具有正交钙钛矿结构的氧离子导体KNb0.9Zr0.1O2.95。

The oxygen ionic conductor KNb_ ( 0.9 ) Zr_ ( 0.1 ) O_ ( 2.95 ) with orthorhombic perovskite structure was synthesized by using high-temperature and high-pressure method .

磷灰石型硅酸镧为氧离子导体，具有中温电导率高、活化能低的特点，在很宽的氧分压范围内为纯氧离子电导。

Apatite-type lanthanum silicate , oxygen ion conductor , has the characteristics of high oxygen ion conductivity and low activation energy at intermediate temperature . It is pure oxygen ion conductivity at a very wide range of oxygen partial pressure .

含Co的氧离子-电子混合导体的热还原现象与机制

Phenomena and mechanism of thermal-reducing in mixed oxygen-ionic electronic conductors containing Co

通过在样品与氧库间置入一固体氧离子导体以及在样品与氧库间外加一直流电压，氧在该电压驱动下可独立于温度、压力自样品中就位抽出或灌入样品；

By inserting a solid oxygen specific electrolyte between a sample and an oxygen reservoir , and applying a DC power between the oxygen reservoir and the sample oxygen can be pumped out from or poured into the sample in situ independent of temperature and pressure .

结果表明，该陶瓷样品在600-1000℃下氧离子迁移数为1，氧离子电导率的最大值为3.2×100-2S·cm-1，是一个优良的氧离子导体；

The maximal conductivity of the ceramic is 3.2 × 10-2S · cm-1 in O2 at 1000 ℃ . The conduction in the ceramic are pure oxide-ionic with oxide-ionic transport number of 1 over the whole temperature range of 600-1000 ℃ .

氧浓差电池的结果表明，各烧结体样品在600～1000℃范围氧离子迁移数为1，是纯的氧离子导体；

The results show that these sinters are almost pure oxygen conductors with oxide-ionic transport number of 1 in oxygen concentration cell over the temperature range of 600 ~ 1000 ℃ .