Add to ORKGMaterials displaying high oxide-ion and/or proton conductivity have been attracting considerable interest for application as electrolytes in solid oxide fuel cells. In this respect, materials with the fluorite or perovskite-type structures have traditionally been targeted, but there is now growing interest in new structure-types. Important aspects to address are the dominant defects and mechanism of ionic conduction in such systems, and in this paper we highlight the benefits of a combined experimental and computer modelling approach to the investigation of such systems. With reference to recent work on apatite-type Ln9.33+x(Si/GeO4)6O2+3x/2, gallate-based Ln1-xBa1+xGaO4-x/2, and cuspidine-type Ln4(Ti2-xGaxO8-x/2)O2 (Ln=rare earth) we discu...
This contribution reviews the current state of knowledge of atomic transport in ionic materials, a d...
Solid-oxide fuel/electrolyzer cells are limited by a dearth of electrolyte materials with low ohmic ...
Novel melilite-type gallium-oxides are attracting attention as promising new oxide-ion conductors w...
Materials displaying high oxide-ion and/or proton conductivity have been attracting considerable int...
Traditionally materials with the fluorite and perovskite structures have dominated the research in t...
NoThe need for greater energy efficiency has garnered increasing support for the use of fuel-cell te...
This critical review presents an overview of the various classes of oxide materials exhibiting fast ...
Fast ion conductors are keystone materials in the development of high performance solid oxide fuel c...
International audienceApatite-type lanthanum silicates of general formula La9.33+2x/3(SiO4)6O2+x hav...
The project has dealt with the synthesis and characterisation of new materials for use in solid oxid...
This thesis describes the study and development of a number of oxide ion conductors, with the aim of...
Fundamental advances in solid-state ionics for energy conversion and storage are crucial in addressi...
Materials that exhibit significant mobility of several different types of charge carriers (e.g., oxi...
Germanium-based apatite compounds are fast oxide-ion conductors for potential use in fuel cells. A c...
Extensive regions of cubic fluorite solid solution formation are observed in the Y2O3-ZrO2, Y2O3-ZrO...
This contribution reviews the current state of knowledge of atomic transport in ionic materials, a d...
Solid-oxide fuel/electrolyzer cells are limited by a dearth of electrolyte materials with low ohmic ...
Novel melilite-type gallium-oxides are attracting attention as promising new oxide-ion conductors w...
Materials displaying high oxide-ion and/or proton conductivity have been attracting considerable int...
Traditionally materials with the fluorite and perovskite structures have dominated the research in t...
NoThe need for greater energy efficiency has garnered increasing support for the use of fuel-cell te...
This critical review presents an overview of the various classes of oxide materials exhibiting fast ...
Fast ion conductors are keystone materials in the development of high performance solid oxide fuel c...
International audienceApatite-type lanthanum silicates of general formula La9.33+2x/3(SiO4)6O2+x hav...
The project has dealt with the synthesis and characterisation of new materials for use in solid oxid...
This thesis describes the study and development of a number of oxide ion conductors, with the aim of...
Fundamental advances in solid-state ionics for energy conversion and storage are crucial in addressi...
Materials that exhibit significant mobility of several different types of charge carriers (e.g., oxi...
Germanium-based apatite compounds are fast oxide-ion conductors for potential use in fuel cells. A c...
Extensive regions of cubic fluorite solid solution formation are observed in the Y2O3-ZrO2, Y2O3-ZrO...
This contribution reviews the current state of knowledge of atomic transport in ionic materials, a d...
Solid-oxide fuel/electrolyzer cells are limited by a dearth of electrolyte materials with low ohmic ...
Novel melilite-type gallium-oxides are attracting attention as promising new oxide-ion conductors w...