Symmetric and asymmetric overgrowth of a Ag shell onto gold nanorods assisted by Pt pre-deposition.

The plasmonic properties of noble metallic nanoparticles could be tuned by morphology and composition, enabling opportunities for applications in sensors, photocatalysis, biomedicine, and energy conversion. Here, we report a method of the symmetric and asymmetric overgrowth of a Ag shell onto gold nanorods assisted by Pt pre-deposition a 2-step approach. Firstly, gold nanorods (AuNRs), synthesized a seed-mediated method, were used as seeds to form a AuNR-Pt structure, by using KPtCl as the precursor. In this step, most of the Pt material was selectively deposited on the tips of the AuNR. Secondly, by using AgNO as the precursor, a Ag shell was overgrown on the surface of the AuNRs-Pt nanoparticles, resulting in a (AuNR-Pt)-Ag core-shell tri-metallic nanostructure. Due to the surface energy and lattice matching between Au and Ag, the Ag shell preferred to be epitaxially overgrown on the side of AuNR. The Ag shell thickness and symmetry of the (AuNR-Pt)-Ag could be tuned by changing the amounts of AgNO precursor. With the increase of the Ag shell thickness, the (AuNR-Pt)-Ag nanostructures changed from symmetric to asymmetric. The obtained (AuNR-Pt)-Ag nanostructures were studied using UV-vis-NIR spectroscopy, transmission electron microscopy, EDS mapping, DLS, and ICP-MS. The growth mechanism was discussed.