posted on 2020-06-05, 15:43authored byLi Zhou, Zhiheng Lyu, Younan Xia
We
report a solution-phase method for the fabrication of Pd-Ag
nanorods featuring an asymmetric, pencil-like structure with a sharpened
Ag tip at one end and a Pd decahedron at the other end. The fabrication
started from the synthesis of penta-twinned Pd-Ag nanorods via asymmetric
growth of Ag from one side of the Pd decahedral seeds. When subjected
to aqueous ammonia, etching of Ag was preferentially initiated from
the Ag end lined with twin defects while the Pd end was kept almost
intact. The selective etching of Ag generated a pencil-like nanostructure,
with the sharpened Ag tip enclosed by high-index facets. We systematically
analyzed the evolution of morphology, surface structure, and plasmonic
properties and also proposed a plausible mechanism to account for
the etching process. The asymmetric, pencil-like Pd–Ag nanorods
showed tunable plasmon resonance, sharp Ag tips, and catalytically
active surfaces (high-index facets of Ag and a Pd surface equivalent
to that on a decahedral nanocrystal), offering a unique system for
the investigation of plasmon- and tip-enhanced spectroscopies, as
well as the exploration of catalytic applications.