Synthesis
of Anisotropic Concave Gold Nanocuboids
with Distinctive Plasmonic Properties
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Abstract
Gold
nanoparticles have attracted considerable attention owing
to their appealing plasmonic properties that have found applications
in sensing, imaging, and energy harvesting. In the present article,
we report the synthesis of anisotropic concave Au nanocuboids using
a seeded growth method controlled by a seed concentration. Unlike
conventional nonconcave counterparts which typically present two fundamental
plasmonic modes (transverse and longitudinal modes), our experimental
measurements and theoretical analysis show that the anisotropic concave
Au nanocuboid has three plasmonic resonances. Theoretical calculations
based on a finite element method confirm that the third resonance
is a transverse “edge” mode, which is enhanced by the
sharpened edges of the concave surfaces. This third resonance is found
to be separated from the conventional broad transverse mode band.
Because of the separation of the resonance mode, the quality-factor
of the original transverse mode shows nearly a 3-fold enhancement