Sol-gel based fabrication methods for photonic crystals

dc.contributor.advisor Meng Lu Huang, Yin
dc.contributor.department Electrical and Computer Engineering 2018-08-11T14:20:26.000 2020-06-30T02:56:29Z 2020-06-30T02:56:29Z Thu Jan 01 00:00:00 UTC 2015 2001-01-01 2015-01-01
dc.description.abstract <p>Photonic Crystals (PhCs) composed of periodic change of dielectric materials are capable of manipulating the interaction between photon and materials and thus controlling the flow of light. Undergone a rapid theoretical and technical exploration during the past three decades, PhC structures have been implemented in numerous photonic devices and have been found useful for widespread applications, such as communication, optical sensor, energy harvest, and display. As PhC-based devices operating in the visible or near Infrared (NIR) wavelength regimes, the period of the dielectric constant modulation is sub-wavelength and below one micrometer. At such a length scale, the fabrication of PhC structure with a sufficient precision and size is challenging,</p> <p>In this thesis, sol-gel based fabrication methods are demonstrated to fabricate PhC slabs on a glass substrate and three dimensional (3D) PhC inside a capillary tube. The one-dimensional (1D) and two-dimensional (2D) PhC slabs, which are also known as guided mode resonant (GMR) filters, have dielectric thin film with a high refractive index (n = 1.78), functions as the light confinement layer. Meanwhile, the imprinted periodic structure on hybrid inorganic-organic sol-gel thin film couples the light excitation into PhC slab mode. It has been studied for their capabilities of generating narrowband reflections in visible and NIR portions of the spectrum. The sol-gel based imprint method uses titanium alkoxides sol-gel solution to transfer desired patterns from a master mold to the glass substrate within 5 minutes. This one-step fabrication process warrants a simple, rapid, and low-cost formation of PhC slab structures over a surface area as large as 1 cm2, which is currently limited by size of available imprint mold. Also, our sol-gel imprint approach enabled the tuning of PhC slab modes by pre- and post-imprint processes. The fabricated PhC slabs were characterized and their applications in refractometry-based biosensing were explored. The 1D PhC slab filter exhibited a Q factor of 70 at resonant wavelength while 2D PhC slab filter had Q factor of 158 at resonant wavelength. As for refractometric biosensor, a bulk sensitivity of 50 nm per refractive index unit and the detection of monolayer of polyamino acid have been measured.</p> <p>In addition, efforts have been devoted to investigate the fabrication of 3D PhC inside a capillary tube, where the self-assembly polystyrene (PS) sphere was exploited as the template. Within a few simple steps, inverse opal PhC structures were generated inside glass tubes and can perfectly work as nanoscale optofluidics. With volume ratios of polystyrene and sol-gel solution from 5:1 to 7:1, the fabricated inverse opal PhC structures were discovered to be more compact and ordered. By trying different PS sphere diameters of 185nm, 236 nm, 269nm, and 307nm, the resonant wavelengths of inverse opal PhCs have been found a linear redshift with an increase of PS sphere diameter.</p>
dc.format.mimetype application/pdf
dc.identifier archive/
dc.identifier.articleid 5408
dc.identifier.contextkey 7907290
dc.identifier.s3bucket isulib-bepress-aws-west
dc.identifier.submissionpath etd/14401
dc.language.iso en
dc.source.bitstream archive/|||Fri Jan 14 20:19:51 UTC 2022
dc.subject.disciplines Nanoscience and Nanotechnology
dc.subject.keywords Electrical and Computer Engineering
dc.title Sol-gel based fabrication methods for photonic crystals
dc.type article
dc.type.genre thesis
dspace.entity.type Publication
relation.isOrgUnitOfPublication a75a044c-d11e-44cd-af4f-dab1d83339ff thesis Master of Science
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