受体掺杂层状钙钛矿BaLa2In2O7的局部结构和离子输运

Q4 Materials Science

Chimica Techno Acta Pub Date : 2022-10-19 DOI:10.15826/chimtech.2022.9.4.15

N. Tarasova

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引用次数: 4

摘要

具有钙钛矿或钙钛矿相关结构的材料由于其不同的物理和化学性质而具有许多应用。这些应用非常多样化，涵盖了包括氢能在内的不同领域。Ruddlesden-Popper结构的层状钙钛矿构成了一类新型的离子导体。本文首次研究了受主掺杂对BaLa2In2O7层状钙钛矿局部结构的影响及其与输运性质的关系。几何因子（由于阳离子离子半径的增加而导致的晶胞体积的增加）在小掺杂剂浓度（x 0.15）的区域中起着主要作用。浓度因子（氧空位浓度的增加）则在大掺杂剂浓度的区域中更为显著。受体掺杂是改善氧离子的一种很有前途的方法层状钙钛矿BaLa2In2O7。

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Local structure and ionic transport in acceptor-doped layered perovskite BaLa2In2O7

Materials with perovskite or perovskite-related structure have many applications because of theirs different physical and chemical properties. These applications are extremely diverse and cover different fields including hydrogen energy. Layered perovskites with Ruddlesden-Popper structure constitute a novel class of ionic conductors. In this paper, the effect of acceptor doping on the local structure and its relationship with transport properties were shown for layered perovskites based on BaLa2In2O7 for the first time. The geometric factor (the increase in the unit cell volume due to the increase in the ionic radii of cations) plays major role in the area of small dopant concentration (x 0.15). The concentration factor (the increase in the oxygen vacancy concentration) is more significant in the area of big dopant concentration (x 0.15). The acceptor doping is a promising way of improving the oxygen-ionic conductivity of layered perovskite BaLa2In2O7.

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来源期刊

Chimica Techno Acta Chemical Engineering-Chemical Engineering (all)

CiteScore

1.00

自引率

0.00%

发文量

审稿时长

4 weeks