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Atomistic simulations of the crystallization of amorphous GeTe nanoparticles
The effect of dimensionality reduction on the crystallization kinetics of phase change materials is of relevance for the operation of ultrascaled memory devices. Therefore, the... -
Atomistic simulations of the crystallization of amorphous GeTe nanoparticles
The effect of dimensionality reduction on the crystallization kinetics of phase change materials is of relevance for the operation of ultrascaled memory devices. Therefore, the... -
Unraveling the crystallization kinetics of the Ge₂Sb₂Te₅ phase change compoun...
The phase change compound Ge₂Sb₂Te₅ (GST225) is exploited in advanced non-volatile electronic memories and in neuromorphic devices which both rely on a fast and reversible... -
Unraveling the crystallization kinetics of the Ge₂Sb₂Te₅ phase change compoun...
The phase change compound Ge₂Sb₂Te₅ (GST225) is exploited in advanced non-volatile electronic memories and in neuromorphic devices which both rely on a fast and reversible... -
Crystallization kinetics of nanoconfined GeTe slabs in GeTe/TiTe-like superla...
Superlattices made of alternating blocks of the phase change compound Sb₂Te₃ and of TiTe₂ confining layers have been recently proposed for applications in neuromorphic devices.... -
Crystallization kinetics of nanoconfined GeTe slabs in GeTe/TiTe-like superla...
Superlattices made of alternating blocks of the phase change compound Sb₂Te₃ and of TiTe₂ confining layers have been recently proposed for applications in neuromorphic devices....
