Determination of the Surface Facets of Gold Nanorods in Wet-Coated Thin Films with Grazing-Incidence Wide Angle X-Ray Scattering

Abstract This work studies the surface facets of gold nanorods (AuNRs) in wet-coated nanoparticle thin films with synchrotron-light-based grazing-incidence wide angle X-ray scattering (GIWAXS), which provides statistically relevant results on many nanoparticles. Air-brush spraying deposits the monodisperse AuNRs into sparse monolayers where the long axis of rods is parallel to the substrate surface. It is found that the crystalline facets of individual AuNRs in the sparse monolayer are all in the same orientation, as indicated by narrow azimuthal widths of (200) reflections, over a macroscopic scale comparable to the substrate. This alignment is probably due to the rods' sitting on high-index surface facets such as (520) and (250). A quantitative analysis of the angles between bulk facets and the surface facets leads to a “nested-octagon” model for the cross sections of AuNRs: shell octagon with high-index crystalline facets (520), (5-20), (2-50), (-2-50), (-5-20), (-520), (-250), and (250), and core octagon consisting of low-index crystalline facets (100), (1-10), (0-10), (-1-10), (-100), (-110), (010), and (110).