Add to ORKGSurface structure controls the physical and chemical response of materials. Surface polar terminations are appealing because of their unusual properties but they are intrinsically unstable. Several mechanisms, namely metallization, adsorption, and ordered reconstructions, can remove thermodynamic penalties rendering polar surfaces partially stable. Here, for CeO2(100), we report a complementary stabilization mechanism based on surface disorder that has been unravelled through theoretical simulations that: account for surface energies and configurational entropies; show the importance of the ion distribution degeneracy; and identify low di usion barriers between conformations that ensure equilibration. Disordered configurations in oxides mig...
Compact CeO2(111) films grown on Ru(0001) can be transformed into well-shaped nanoparticles by annea...
When ceria is used as a support for many redox catalysis involved in green catalysis, it is well-kno...
Polarizable materials attract attention in catalysis because they have a free parameter for tuning c...
The relative stability of nine different well defined CeO2 surfaces has been studied by periodic den...
The relative stability of nine different well defined CeO2 surfaces has been studied by periodic den...
© 2019 The hydrophobicity of CeO 2 surfaces is examined here. Since wettability measurements are ext...
Polar ionic surfaces with bulk termination are inherently unstable because of their diverging electr...
The impact of an electrochemical environment on the thermodynamic stability of polar oxide surfaces ...
The structure and properties of CeO2 surfaces have been intensively studied due to their importance ...
The stacking of alternating charged planes in ionic crystals creates a diverging electrostatic energ...
Polar crystal surfaces play an important role in the functionality of many materials, and have been ...
We present density functional theory investigations of the bulk properties of cerium oxides ( CeO2 ...
We have used density-functional theory to investigate (111), (110), (210), (211), (100), and (310) s...
We studied the interaction of perfect and lightly reduced ceria (111) surfaces with hydrogen and wat...
Ceria (CeO2) is a well-known catalytic oxide with many environmental, energy production, and industr...
Compact CeO2(111) films grown on Ru(0001) can be transformed into well-shaped nanoparticles by annea...
When ceria is used as a support for many redox catalysis involved in green catalysis, it is well-kno...
Polarizable materials attract attention in catalysis because they have a free parameter for tuning c...
The relative stability of nine different well defined CeO2 surfaces has been studied by periodic den...
The relative stability of nine different well defined CeO2 surfaces has been studied by periodic den...
© 2019 The hydrophobicity of CeO 2 surfaces is examined here. Since wettability measurements are ext...
Polar ionic surfaces with bulk termination are inherently unstable because of their diverging electr...
The impact of an electrochemical environment on the thermodynamic stability of polar oxide surfaces ...
The structure and properties of CeO2 surfaces have been intensively studied due to their importance ...
The stacking of alternating charged planes in ionic crystals creates a diverging electrostatic energ...
Polar crystal surfaces play an important role in the functionality of many materials, and have been ...
We present density functional theory investigations of the bulk properties of cerium oxides ( CeO2 ...
We have used density-functional theory to investigate (111), (110), (210), (211), (100), and (310) s...
We studied the interaction of perfect and lightly reduced ceria (111) surfaces with hydrogen and wat...
Ceria (CeO2) is a well-known catalytic oxide with many environmental, energy production, and industr...
Compact CeO2(111) films grown on Ru(0001) can be transformed into well-shaped nanoparticles by annea...
When ceria is used as a support for many redox catalysis involved in green catalysis, it is well-kno...
Polarizable materials attract attention in catalysis because they have a free parameter for tuning c...