Proton conducting mechanism in perovskite metal oxides from viewpoints of local structural relaxation and local chemical bonding change

PROCEEDINGS OF THE INTERNATIONAL CONFERENCE OF COMPUTATIONAL METHODS IN SCIENCES AND ENGINEERING 2019 (ICCMSE-2019) Pub Date : 2019-12-10 DOI:10.1063/1.5137913

T. Onishi

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Abstract

From our previous molecular orbital calculations using hybrid density functional theory for proton-conducting perovskite metal oxides, it was found that proton pumping effect is combined during proton-conduction, and covalent bonding change occurs in a diagonal line. It is known that pure perovskite metal oxides are regarded as boundary system. It is because they consist of the same unit structures. However, during proton-conduction, both local structural relaxation and local chemical bonding change must be taken into consideration. In this paper, the proton-conducting mechanism is explained from the different viewpoints of local structural relaxation and local chemical bonding change.From our previous molecular orbital calculations using hybrid density functional theory for proton-conducting perovskite metal oxides, it was found that proton pumping effect is combined during proton-conduction, and covalent bonding change occurs in a diagonal line. It is known that pure perovskite metal oxides are regarded as boundary system. It is because they consist of the same unit structures. However, during proton-conduction, both local structural relaxation and local chemical bonding change must be taken into consideration. In this paper, the proton-conducting mechanism is explained from the different viewpoints of local structural relaxation and local chemical bonding change.

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从局部结构弛豫和局部化学键变化的角度看钙钛矿金属氧化物中的质子传导机理

我们利用杂化密度泛函理论计算质子传导钙钛矿金属氧化物的分子轨道，发现质子传导过程中质子泵送效应结合在一起，共价键变化以对角线形式发生。已知纯钙钛矿金属氧化物被视为边界体系。这是因为它们由相同的单位结构组成。然而，在质子传导过程中，必须同时考虑到局部结构弛豫和局部化学键的变化。本文从局域结构弛豫和局域化学键变化的不同角度解释了质子的传导机理。我们利用杂化密度泛函理论计算质子传导钙钛矿金属氧化物的分子轨道，发现质子传导过程中质子泵送效应结合在一起，共价键变化以对角线形式发生。已知纯钙钛矿金属氧化物被视为边界体系。这是因为它们由相同的单位结构组成。然而，在质子传导过程中，必须同时考虑到局部结构弛豫和局部化学键的变化。本文从局域结构弛豫和局域化学键变化的不同角度解释了质子的传导机理。

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PROCEEDINGS OF THE INTERNATIONAL CONFERENCE OF COMPUTATIONAL METHODS IN SCIENCES AND ENGINEERING 2019 (ICCMSE-2019)

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