In Situ Atomic-Scale Observation of Surface-Tension-Induced Structural Transformation of Ag-NiPx Core-Shell Nanocrystals

Xing Huang, Zhongqiang Liu, Marie Mathilde Millet, Jichen Dong, Milivoj Plodine, Feng Ding, Robert Schlögl, Marc Georg Willinger

Research output: Contribution to journalArticlepeer-review

15 Scopus citations


The properties of nanocrystals are highly dependent on their morphology, composition, and structure. Tailored synthesis over these parameters is successfully applied for the production of nanocrystals with desired properties for specific applications. However, in order to obtain full control over the properties, the behavior of nanocrystals under external stimuli and application conditions needs to be understood. Herein, using Ag-NiPx nanocrystals as a model system, we investigate the structural evolution upon thermal treatment by in situ aberration-corrected scanning transmission electron microscopy. A combination of real-time imaging with elemental analysis enables the observation of the transformation from a Ag-NiPx core-shell configuration to a Janus structure at the atomic scale. The transformation occurs through dewetting and crystallization of the NiPx shell and is accompanied by surface segregation of Ag. Further temperature increase leads to a complete sublimation of Ag and formation of individual Ni12P5 nanocrystals. The transformation is rationalized by theoretical modeling based on density functional theory calculations. Our model suggests that the transformation is driven by changes of the surface energy of NiPx and the interfacial energy between NiPx and Ag. The direct observation of atomistic dynamics during thermal-treatment-induced structural modification will help to understand more complex transformations that are induced by aging over time or the interaction with a reactive gas phase in applications such as catalysis.

Original languageEnglish
Pages (from-to)7197-7205
Number of pages9
JournalACS Nano
Issue number7
StatePublished - 24 Jul 2018
Externally publishedYes


  • Ag-NiP nanocrystal
  • atomic-scale observation
  • in situ STEM
  • structural transformation
  • surface energy
  • theoretical modeling


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