Structure Determination in Colloidal Crystal Photonic Bandgap Structures

Abstract: Structure/optical property relationships in photonic bandgap structures are evaluated by a novel combination of sample sectioning, microscopy, and image analysis. Disordered colloidal crystals of solution-derived, monosized SiO 2 particles were sectioned by focused ion beam (FIB) milling and then imaged using field emission scanning electron microscopy (FE-SEM). Pair correlation and radial distribution functions of the particulate arrangement were generated directly from a binary color scale rendering of the F… Show more

“…As discussed, crystalline perfection is critical to evaluate for optical properties. Image analysis can be applied to calculate scattering functions and perfection for these lattices, but may be time consuming 265 . A significant requirement for forming devices using colloidal photonic lattices is incorporation of high index of refraction materials such as nanoparticle titania or active materials like organic dyes.…”

Photo-control of nanointeractions.

“…As discussed, crystalline perfection is critical to evaluate for optical properties. Image analysis can be applied to calculate scattering functions and perfection for these lattices, but may be time consuming 265 . A significant requirement for forming devices using colloidal photonic lattices is incorporation of high index of refraction materials such as nanoparticle titania or active materials like organic dyes.…”

Photo-control of nanointeractions.

Photonic band gap structures by sol–gel processing

Manipulation of inverted and direct opals by a focused ion beam scanning electron microscope (FIB SEM)