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Oxide-Ion Conduction in the Dion–Jacobson-Type Layered Perovskites de Wenrui Zhang

Oxide-Ion Conduction in the Dion–Jacobson-Type Layered Perovskites: Springer Theses

Autor Wenrui Zhang
en Limba Engleză Hardback – 17 mai 2022
This book reports a study of a class of Dion–Jacobson-type layered perovskite oxides in which high oxide-ion conductivities in phases were discovered for the first time in the world. The oxide-ion conductors are important in various energy conversion devices and environmental protection applications such as solid-oxide fuel cells, oxygen gas sensors, oxygen separation membranes, and oxygen-based catalysts. The discoveries are based on a new screening method, called the bond valence method, combined with an original design concept. The present finding of high oxide-ion conductivity reported in the thesis suggested the potential of Dion–Jacobson phases as a platform to identify superior oxide-ion conductors.

To understand what causes such high oxide-ion conductivities in these layered perovskite oxides, the author analyzed their crystal structures at high temperature and described the relationship between oxide-ion conductivities and their crystal structures. A deep understanding of the mechanisms of oxide-ion diffusivity at an atomic level in the Dion–Jacobson phases is clarified.

The discovery of these materials, the new screening method, and the original design concept make possible the realization of many environment-friendly technologies. The findings in this thesis facilitate the possibilities for many novel applications that will help lead to a sustainable future. 

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Specificații

ISBN-13: 9789811922466
ISBN-10: 9811922462
Pagini: 123
Ilustrații: XII, 123 p. 94 illus., 89 illus. in color.
Dimensiuni: 155 x 235 mm
Greutate: 0.37 kg
Ediția:1st ed. 2022
Editura: Springer Nature Singapore
Colecția Springer
Seria Springer Theses

Locul publicării:Singapore, Singapore

Cuprins

1. Introduction.- 2. New Oxide-ion conductors of Dion–Jacobson-Type Layered Perovskites CsBi2Ti2NbO10-δ and CsBi2–xMxTi2+yNb1–yO10‐x/2–y/2–δ (M = Mg, Ca, Sr and Ba; x = 0.1, 0.2, 0.3, 0.4, 0.5 and 0.6; y = 0.2, 0.1, –0.1, and –0.2).- 3. New Oxide-ion conductors of Dion–Jacobson- Type Layered Perovskites CsLn2Ti2NbO10 (Ln = La, Pr, Nd, Sm, Gd, Ho and Yb) and CsLa2–xMxTi2+yNb1–yO10–x/2–y/2 (M = Ca, Sr and Ba; x = 0, 0.1; y = 0.1, 0 and –0.1).- 4. Conclusion and Future Work. 

Notă biografică

Dr. Wenrui Zhang completed his Ph.D. in the School of Science, Department of Chemistry, at Tokyo Institute of Technology under his supervisor Professor Masatomo Yashima, graduating in March of 2020. He is a recipient of the Seiichi Tejima International Student Research Award of Tokyo Institute of Technology (2020). He is currently an assistant professor at Tokyo Institute of Technology, Japan. His research interests lie in ionic conductors, solid-state chemistry, and crystallography. 

Textul de pe ultima copertă

This book reports a study of a class of Dion–Jacobson-type layered perovskite oxides in which high oxide-ion conductivities in phases were discovered for the first time in the world. The oxide-ion conductors are important in various energy conversion devices and environmental protection applications such as solid-oxide fuel cells, oxygen gas sensors, oxygen separation membranes, and oxygen-based catalysts. The discoveries are based on a new screening method, called the bond valence method, combined with an original design concept. The present finding of high oxide-ion conductivity reported in the thesis suggested the potential of Dion–Jacobson phases as a platform to identify superior oxide-ion conductors.

To understand what causes such high oxide-ion conductivities in these layered perovskite oxides, the author analyzed their crystal structures at high temperature and described the relationship between oxide-ion conductivities and their crystal structures. A deep understanding of the mechanisms of oxide-ion diffusivity at an atomic level in the Dion–Jacobson phases is clarified.

The discovery of these materials, the new screening method, and the original design concept make possible the realization of many environment-friendly technologies. The findings in this thesis facilitate the possibilities for many novel applications that will help lead to a sustainable future. 

Caracteristici

Is nominated by Tokyo Institute of Technology as an outstanding Ph.D. thesis Provides a new screening method and an original concept for discovery of ionic conductors Explains the relationship between ionic conductivity and crystal structure