Abstract
By reducing HAuCl4 with chemiluminescent (CL) reagent luminol in the presence of hydrophilic polymer chitosan, three-dimensional flowerlike gold nanostructures (AuNFs) were synthesized via a convenient one-pot method. As-prepared stable and monodisperse AuNFs were consisted of smaller-sized nanodots according to subsequent characterizations by high-resolution transmission electron microscopy, scanning electron microscopy, and powder X-ray diffraction. The size and morphology of AuNFs could be tailored by varying the amount of luminol or chitosan, which further influenced their surface plasmon resonance (SPR) properties in both visible and near-infrared regions. On the basis of the characterizations, a chitosan-assisted second-growth mechanism was proposed to explain their formations and morphology evolutions with the amount of reactants. Moreover, an electromagnetic simulation method, discrete dipole approximation, was introduced to calculate the morphology-dependent extinction spectra of geometrically ir...
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