Dor Amram scite author profile

Core(Fe)-shell(Au) nanoparticles are obtained by solid-state dewetting of thin Fe/Au bilayer films deposited on a sapphire substrate. The core-shell morphology is achieved by employing the equilibrium segregation phenomenon, where Au atoms form a homogeneous thin shell on the surfaces of an Fe nanoparticle and at its interface with the substrate, reducing the total interfacial energy of the system. The obtained nanoparticles are single crystalline (structurally perfect), thermally stable, and of high purity. Their size may be tuned by changing the initial film thickness. We demonstrate that the nanoparticles can subsequently be stripped from the substrate, and/or be modified by attaching thiol-containing organic molecules for use in various nanotechnology-related applications. The method presented herein may easily be extended to other metal combinations, especially those relevant for catalysis, thus helping to reduce precious-metal (e.g., Au, Pt, Rh) content in the catalyst.

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Phase transformations in Au(Fe) nano- and microparticles obtained by solid state dewetting of thin Au–Fe bilayer films

Amram

Klinger

Rabkin

2013

Acta Materialia

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Anisotropic hole growth during solid-state dewetting of single-crystal Au–Fe thin films

2012

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Interplay between thermodynamic and kinetic stabilization mechanisms in nanocrystalline Fe-Mg alloys

Amram

Schuh

2018

Acta Materialia

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Dor Amram

Grain boundary grooving in thin films revisited: The role of interface diffusion

Core(Fe)–Shell(Au) Nanoparticles Obtained from Thin Fe/Au Bilayers Employing Surface Segregation

Phase transformations in Au(Fe) nano- and microparticles obtained by solid state dewetting of thin Au–Fe bilayer films

Anisotropic hole growth during solid-state dewetting of single-crystal Au–Fe thin films

Interplay between thermodynamic and kinetic stabilization mechanisms in nanocrystalline Fe-Mg alloys

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