Femtosecond Laser‐Induced Refractive Index Patterning in Inorganic/Organic Hybrid Films

Abstract: The desire to increase the performance of optoelectronic devices has driven research into new, versatile optical materials. Among these, materials combinations composed of organic polymers and inorganic materials have sparked a strong interest due to the wide range of refractive indices that are obtainable. However, in parallel to these materials design and discovery activities, simple, broadly applicable fabrication techniques need to be advanced that are adapted to novel materials systems and allow, for inst… Show more

“…9 As mentioned above, there has been much research on material combination to play around with the refractive indices, another perspective to tailor the refractive index is by using a direct 3D laser writing technique. 10 There has been reports on 2D structures to tailor the flow of light. A recent study by Strang et al prepared a sandwich like structure of low RI polymer and high RI titanium dioxide hydrate-PVA, where in they were able to tailor the refractive index between 1.5 and 2.10 by adjusting the microcavity distributed Bragg reflectors.…”

“…Inshad et al made nanocomposite of polyaniline, camphor sulfonic acid, and PMMA with nickel nanoparticles which was used for optical filter application 9 . As mentioned above, there has been much research on material combination to play around with the refractive indices, another perspective to tailor the refractive index is by using a direct 3D laser writing technique 10 . There has been reports on 2D structures to tailor the flow of light.…”

Optical and physical properties of zirconium dioxide reinforced poly(methyl methacrylate) nanocomposite films

“…9 As mentioned above, there has been much research on material combination to play around with the refractive indices, another perspective to tailor the refractive index is by using a direct 3D laser writing technique. 10 There has been reports on 2D structures to tailor the flow of light. A recent study by Strang et al prepared a sandwich like structure of low RI polymer and high RI titanium dioxide hydrate-PVA, where in they were able to tailor the refractive index between 1.5 and 2.10 by adjusting the microcavity distributed Bragg reflectors.…”

“…Inshad et al made nanocomposite of polyaniline, camphor sulfonic acid, and PMMA with nickel nanoparticles which was used for optical filter application 9 . As mentioned above, there has been much research on material combination to play around with the refractive indices, another perspective to tailor the refractive index is by using a direct 3D laser writing technique 10 . There has been reports on 2D structures to tailor the flow of light.…”

Optical and physical properties of zirconium dioxide reinforced poly(methyl methacrylate) nanocomposite films