Add to ORKGMultimetallic nanowires with long-range atomic ordering hold the promise of unique physicochemical properties in many applications. Here we demonstrate the synthesis and study the stability of Cu3Au intermetallic nanowires. The synthesis is achieved by using Cu@Au core-shell nanowires as precursors. With appropriate Cu/Au stoichiometry, the Cu@Au core-shell nanowires are transformed into fully ordered Cu3Au nanowires under thermal annealing. Thermally-driven atom diffusion accounts for this transformation as revealed by X-ray diffraction and electron microscopy studies. The twin boundaries abundant in the Cu@Au core-shell nanowires facilitate the ordering process. The resulting Cu3Au intermetallic nanowires have uniform and accurate atomic ...
<p>We report the formation of new phases in bimetallic Au–Cu nanoparticles. These phases were observ...
Atomic-level understanding of the structural transformations of multimetallic nanoparticles (NPs) tr...
Ultrathin bimetallic nanowires are of importance and interest for applications in electronic devices...
Multimetallic nanowires with long-range atomic ordering hold the promise of unique physicochemical p...
Copper nanowire networks are considered a promising alternative to indium tin oxide as transparent c...
Bimetallic nanotubes with noble metals have already shown more versatile performances than single-me...
Copper nanowire networks are considered a promising alternative to indium tin oxide as transparent c...
In this work, we report on the Kirkendall-induced hollowing process occurring upon thermal oxidation...
Understanding the atomic diffusions at the nanoscale is important for controlling the synthesis and ...
In this paper we describe a rapid and effective wet chemical route to the synthesis of netlike AuCu ...
The epitaxial growth of monocrystalline semiconductors on metal nanostructures is interesting from b...
Ultrathin bimetallic nanowires are of importance and interest for applications in electronic devices...
Cu nanowire (NW) is a promising cost-benefit conducting material that could be considered for the de...
The ability to predict and control the formation of bimetallic heterogeneous nanocrystals is desirab...
Nanoporous metal nanowires with large surface areas, and a high density of defect sites play an impo...
<p>We report the formation of new phases in bimetallic Au–Cu nanoparticles. These phases were observ...
Atomic-level understanding of the structural transformations of multimetallic nanoparticles (NPs) tr...
Ultrathin bimetallic nanowires are of importance and interest for applications in electronic devices...
Multimetallic nanowires with long-range atomic ordering hold the promise of unique physicochemical p...
Copper nanowire networks are considered a promising alternative to indium tin oxide as transparent c...
Bimetallic nanotubes with noble metals have already shown more versatile performances than single-me...
Copper nanowire networks are considered a promising alternative to indium tin oxide as transparent c...
In this work, we report on the Kirkendall-induced hollowing process occurring upon thermal oxidation...
Understanding the atomic diffusions at the nanoscale is important for controlling the synthesis and ...
In this paper we describe a rapid and effective wet chemical route to the synthesis of netlike AuCu ...
The epitaxial growth of monocrystalline semiconductors on metal nanostructures is interesting from b...
Ultrathin bimetallic nanowires are of importance and interest for applications in electronic devices...
Cu nanowire (NW) is a promising cost-benefit conducting material that could be considered for the de...
The ability to predict and control the formation of bimetallic heterogeneous nanocrystals is desirab...
Nanoporous metal nanowires with large surface areas, and a high density of defect sites play an impo...
<p>We report the formation of new phases in bimetallic Au–Cu nanoparticles. These phases were observ...
Atomic-level understanding of the structural transformations of multimetallic nanoparticles (NPs) tr...
Ultrathin bimetallic nanowires are of importance and interest for applications in electronic devices...