Halide Anions as Shape-Directing
Agents for Obtaining
High-Quality Anisotropic Gold Nanostructures
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Abstract
The fundamental role of halide anions in the seed-mediated
synthesis
of anisotropic noble metal nanostructures has been a subject of debate
within the nanomaterials community. Herein, we systematically investigate
the roles of chloride, bromide and iodide anions in mediating the
growth of anisotropic Au nanostructures. A high-purity surfactant
solution of hexadecyltrimethylammonium bromide (CTABr) is used to
reliably probe the role of each halide anion without interference
from impurities. Our investigation reveals that bromide anions are
required for the formation of Au nanorods, while the controlled combination
of both bromide and iodide anions are necessary for the production
of high-quality Au nanoprisms. Chloride anions, however, are ineffective
at promoting anisotropic architectures and are detrimental to nanorod
and/or nanoprism growth at high concentrations. We examine the seed
structure and propose a growth model based on facet-selective adsorption
on low-index Au facets to rationalize the nanostructures obtained
by these methods. Our approach provides a facile synthesis of anisotropic
Au nanostructures by way of a single growth solution and yields the
desired morphologies with high purity. These results demonstrate that
appropriate combinations of halide anions provide a versatile paradigm
for manipulating the morphological distribution of Au nanostructures