具有不完整氧亚晶格的 Ba3InGa2O7.5 复合氧化物中的氧离子和质子传导性

Q4 Materials Science Chimica Techno Acta Pub Date : 2024-01-17 DOI:10.15826/chimtech.2024.11.1.02

Nadezhda Kochetova, Veronika Cherepanova, Alyona Pikalova, Artem Gilev

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引用次数: 0

摘要

Ba3InGa2O7.5 复合氧化物首次采用固态方法合成，它具有包晶相关结构和结构氧空位。发现该相具有单斜对称性（sp. gr. P2/c），单胞参数如下：a = 7.942(1) Å，b = 5.868(5) Å，c = 18.201(6) Å，b = 91.52(9)。对电学特性进行了全面研究；结果表明，在 450-900 oC 的温度范围内，基于复合氧化物的陶瓷材料主要是离子导体。在干燥条件下，导电性是由于氧离子转移，而在潮湿环境中，导电性是由于氧离子和质子转移。质子电导率值为 4.5-10-5 S/cm，在 700 oC 的湿空气中，质子传输数约为 50%；在较低温度下，质子传输成为主导。在 450 oC 以下的水蒸气中长时间处理样品会导致水解分解。

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Oxygen-ion and proton conductivity in the Ba3InGa2O7.5 complex oxide with incomplete oxygen sublattice

The Ba3InGa2O7.5 complex oxide, possessing the perovskite-related structure with structural oxygen vacancies, was first synthesized by the solid state method. The phase was found to be characterized by monoclinic symmetry (sp. gr. P2/c) with the following unit cell parameters: a = 7.942(1) Å, b = 5.868(5) Å, c = 18.201(6) Å, b = 91.52(9). Comprehensive investigations of electrical properties were carried out; ceramic material based on the complex oxide was shown to be a predominantly ionic conductor in the temperature range 450–900 oC. The conductivity is due to oxygen-ion transfer in dry conditions and oxygen-ion and proton transfer in wet atmosphere. The proton conductivity value is 4.5·10–5 S/cm, and the proton transport number is ~50% at 700 oC in wet air; at lower temperatures, proton transport becomes dominant. Prolonged treatment of the sample in water vapors below 450 oC leads to hydrolysis decomposition.

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