Add to ORKGGlancing angle deposition (GLAD) was used to fabricate optically active thin films with porous chiral microstructure. Liquid crystals added to the films result in enhanced optical properties
Control over the orientational order of liquid crystals (LCs) is critical to optical switching and d...
Over the past few years, photoinduced surface alignment of liquid crystal layers has evolved into a ...
The ability to steer light with miniaturized optical components has attracted great interest for nex...
Glancing angle deposition (GLAD) was used to fabricate optically active thin films with porous chira...
Using the glancing angle deposition (GLAD) technique, we have fabricated porous, chiral thin films w...
Porous thin film structures have been fabricated by physical vapor deposition at an incident flux an...
In this study, optical and structural properties of the thin films prepared using glancing angle dep...
Glancing angle deposition (GLAD) is a process in which thin films are deposited onto a substrate wit...
Glancing angle deposition (GLAD) is a thin film deposition technique capable of fabricating columnar...
Controlled-porosity Si thin films suitable for use as high-aspect-ratio microbattery electrodes were...
Traditional liquid crystal alignment techniques influence mesogen alignment at the substrate alone, ...
Using the principle of photo-alignment it has become possible to pattern the orientation of liquid c...
Control over the orientational order of liquid crystals (LCs) is critical to optical switching and d...
Over the past few years, photoinduced surface alignment of liquid crystal layers has evolved into a ...
The ability to steer light with miniaturized optical components has attracted great interest for nex...
Glancing angle deposition (GLAD) was used to fabricate optically active thin films with porous chira...
Using the glancing angle deposition (GLAD) technique, we have fabricated porous, chiral thin films w...
Porous thin film structures have been fabricated by physical vapor deposition at an incident flux an...
In this study, optical and structural properties of the thin films prepared using glancing angle dep...
Glancing angle deposition (GLAD) is a process in which thin films are deposited onto a substrate wit...
Glancing angle deposition (GLAD) is a thin film deposition technique capable of fabricating columnar...
Controlled-porosity Si thin films suitable for use as high-aspect-ratio microbattery electrodes were...
Traditional liquid crystal alignment techniques influence mesogen alignment at the substrate alone, ...
Using the principle of photo-alignment it has become possible to pattern the orientation of liquid c...
Control over the orientational order of liquid crystals (LCs) is critical to optical switching and d...
Over the past few years, photoinduced surface alignment of liquid crystal layers has evolved into a ...
The ability to steer light with miniaturized optical components has attracted great interest for nex...