Add to ORKGPhase diagrams of multi-component systems are critical for the development and engineering of material alloys for all technological applications. At nano dimensions, surfaces (and interfaces) play a significant role in changing equilibrium thermodynamics and phase stability. In this work, it is shown that these surfaces at small dimensions affect the relative equilibrium thermodynamics of the different phases. The CALPHAD approach for material surfaces (also termed “nano-CALPHAD”) is employed to investigate these changes in three binary systems by calculating their phase diagrams at nano dimensions and comparing them with their bulk counterparts. The surface energy contribution, which is the dominant factor in causing these changes, is eval...
A thermodynamics-based approach to determining stability conditions for metallic nano-ensembles is p...
Phase equilibria in a system constituted of an alloy nanoparticle in contact with a solid nanowire h...
Alloying nanocrystalline materials to stabilize them against grain growth is proving a critical enab...
Phase diagrams of multi-component systems are critical for the development and engineering of materi...
The instability of nanocrystalline materials against both grain growth and bulk phase separation is ...
We present a theory which shows that, in a closed system of fixed volume capable of undergoing a ph...
In isolated bimetallic nanoscale systems the limit amount of matter and surface-induced size effects...
A study on alloy phase formation in nanometer-sized particles by insitu transmission-electron micros...
A study on alloy phase formation in nanometer-sized particles by insitu transmission-electron micros...
A thermodynamic model describing relative stability of different shapes for nanoparticles as a funct...
If bulk phase diagrams of binary alloys are now well known, it is not the case for nanoalloys, which...
On appelle nanoalliages les nanoparticules d'alliages, leur composition chimique et leur taille en m...
Compared to alloy bulk phase diagrams, the experimental determination of phase diagrams for alloy na...
Si les diagrammes de phase des alliages binaires massifs sont désormais bien connus, il en va tout a...
We present the results of an extensive atomistic study of the thermodynamics of and segregation beha...
A thermodynamics-based approach to determining stability conditions for metallic nano-ensembles is p...
Phase equilibria in a system constituted of an alloy nanoparticle in contact with a solid nanowire h...
Alloying nanocrystalline materials to stabilize them against grain growth is proving a critical enab...
Phase diagrams of multi-component systems are critical for the development and engineering of materi...
The instability of nanocrystalline materials against both grain growth and bulk phase separation is ...
We present a theory which shows that, in a closed system of fixed volume capable of undergoing a ph...
In isolated bimetallic nanoscale systems the limit amount of matter and surface-induced size effects...
A study on alloy phase formation in nanometer-sized particles by insitu transmission-electron micros...
A study on alloy phase formation in nanometer-sized particles by insitu transmission-electron micros...
A thermodynamic model describing relative stability of different shapes for nanoparticles as a funct...
If bulk phase diagrams of binary alloys are now well known, it is not the case for nanoalloys, which...
On appelle nanoalliages les nanoparticules d'alliages, leur composition chimique et leur taille en m...
Compared to alloy bulk phase diagrams, the experimental determination of phase diagrams for alloy na...
Si les diagrammes de phase des alliages binaires massifs sont désormais bien connus, il en va tout a...
We present the results of an extensive atomistic study of the thermodynamics of and segregation beha...
A thermodynamics-based approach to determining stability conditions for metallic nano-ensembles is p...
Phase equilibria in a system constituted of an alloy nanoparticle in contact with a solid nanowire h...
Alloying nanocrystalline materials to stabilize them against grain growth is proving a critical enab...