Add to ORKGIn this paper we report a computational study of the e ects of strain on the conductivity of Y-doped ceria (YDC). This material was chosen as it is of technological interest in the eld of Solid Oxide Fuel Cells (SOFCs). The simulations were performed under realistic operational temperatures and strain ( ) levels. For bulk and thin lm YDC, the results show that tensile strain leads to conductivity enhancements of up to 3.5 and 1.44 , respectively. The magnitude of these enhancements is in agreement with recent experimental and computational evidence. In addition, the methods presente
Four high purity heavily yttrium doped ceria (YDC, YxCe1-xO2-delta, x=0.1, 0.15, 0.2 0.25) electroly...
In this paper, we focus on the effect of processing-dependent lattice strain on oxygen ion conductiv...
Doped cerium oxide has shown great promise as an electrolyte in high temperature fuel cells. However...
In this paper we report a computational study of the effects of strain on the conductivity of Y-dope...
Materials with high oxygen ion conductivity and low electronic conductivity are required for electro...
Doped ceria is an important electrolyte for solid oxide fuel cell applications. Molecular dynamics s...
abstract: Fuel cells, particularly solid oxide fuel cells (SOFC), are important for the future of gr...
The work presented deals with different approaches to improve the properties of two well known fluor...
Please consider the manuscript “Probing of elastic straining effect on oxygen vacancies dissociat...
International audienceOne of the key objectives in developing solid oxide fuel cells and oxygen memb...
Hertz, Joshua L.Solid oxide fuel cells (SOFCs), an all solid-state energy conversion device, are pro...
SOFC solid electrolytes are known for their ionic conductivity characteristics, which increase with ...
SOFC solid electrolytes are known for their ionic conductivity characteristics, which increase with ...
Developing electrolyte operating at low temperature is crucial for the development of efficient soli...
Heavily acceptor doped ceria is a material of great relevance for applications in solid oxide fuel c...
Four high purity heavily yttrium doped ceria (YDC, YxCe1-xO2-delta, x=0.1, 0.15, 0.2 0.25) electroly...
In this paper, we focus on the effect of processing-dependent lattice strain on oxygen ion conductiv...
Doped cerium oxide has shown great promise as an electrolyte in high temperature fuel cells. However...
In this paper we report a computational study of the effects of strain on the conductivity of Y-dope...
Materials with high oxygen ion conductivity and low electronic conductivity are required for electro...
Doped ceria is an important electrolyte for solid oxide fuel cell applications. Molecular dynamics s...
abstract: Fuel cells, particularly solid oxide fuel cells (SOFC), are important for the future of gr...
The work presented deals with different approaches to improve the properties of two well known fluor...
Please consider the manuscript “Probing of elastic straining effect on oxygen vacancies dissociat...
International audienceOne of the key objectives in developing solid oxide fuel cells and oxygen memb...
Hertz, Joshua L.Solid oxide fuel cells (SOFCs), an all solid-state energy conversion device, are pro...
SOFC solid electrolytes are known for their ionic conductivity characteristics, which increase with ...
SOFC solid electrolytes are known for their ionic conductivity characteristics, which increase with ...
Developing electrolyte operating at low temperature is crucial for the development of efficient soli...
Heavily acceptor doped ceria is a material of great relevance for applications in solid oxide fuel c...
Four high purity heavily yttrium doped ceria (YDC, YxCe1-xO2-delta, x=0.1, 0.15, 0.2 0.25) electroly...
In this paper, we focus on the effect of processing-dependent lattice strain on oxygen ion conductiv...
Doped cerium oxide has shown great promise as an electrolyte in high temperature fuel cells. However...