Radiation damage in nanostructured materials
Materials subjected to high dose irradiation by energetic particles often experience severe
damage in the form of drastic increase of defect density, and significant degradation of their …
damage in the form of drastic increase of defect density, and significant degradation of their …
Defect-interface interactions
Nanostructured materials contain an extremely high density of interfaces. The properties of
these materials when exposed to extreme conditions of radiation dose, stress, deformation …
these materials when exposed to extreme conditions of radiation dose, stress, deformation …
The relationship between grain boundary structure, defect mobility and grain boundary sink efficiency
Nanocrystalline materials have received great attention due to their potential for improved
functionality and have been proposed for extreme environments where the interfaces are …
functionality and have been proposed for extreme environments where the interfaces are …
High-throughput prediction of thermodynamic stabilities of dopant-defect clusters at misfit dislocations in perovskite oxide heterostructures
Complex oxide heterostructures and thin films have emerged as promising candidates for
diverse applications, wherein interfaces formed by joining two different oxides play a central …
diverse applications, wherein interfaces formed by joining two different oxides play a central …
Influence of misfit dislocations on ionic conductivity at oxide interfaces
Mismatched complex oxide thin films and heterostructures have gained significant traction
for use as electrolytes in intermediate temperature solid oxide fuel cells, wherein interfaces …
for use as electrolytes in intermediate temperature solid oxide fuel cells, wherein interfaces …
Defect dynamics in two-dimensional black phosphorus under argon ion irradiation
Fundamental understanding of the atomic-scale mechanisms underlying production,
accumulation, and temporal evolution of defects in phosphorene during noble-gas ion …
accumulation, and temporal evolution of defects in phosphorene during noble-gas ion …
High-throughput prediction of oxygen vacancy defect migration near misfit dislocations in SrTiO 3/BaZrO 3 heterostructures
Among their numerous technological applications, semi-coherent oxide heterostructures
have emerged as promising candidates for applications in intermediate temperature solid …
have emerged as promising candidates for applications in intermediate temperature solid …
Termination chemistry-driven dislocation structure at SrTiO3/MgO heterointerfaces
Exploiting the promise of nanocomposite oxides necessitates a detailed understanding of
the dislocation structure at the interfaces, which governs diverse and technologically …
the dislocation structure at the interfaces, which governs diverse and technologically …
[HTML][HTML] Structure and ionic conduction enhancement mechanisms at CeO2/SrTiO3 heterointerfaces
Fluorite-perovskite heterointerfaces garner great interest for enhanced ionic conductivity for
application in electronic and energy devices. However, the origin of observed enhanced …
application in electronic and energy devices. However, the origin of observed enhanced …
Oxygen Vacancy Formation and Interface Charge Transfer at Misfit Dislocations in Gd-Doped CeO2/MgO Heterostructures
Among numerous functionalities of mismatched complex oxide thin films and
heterostructures, their application as next-generation electrolytes in solid oxide fuel cells has …
heterostructures, their application as next-generation electrolytes in solid oxide fuel cells has …