Supramolecular Chiral Structures: Smart Polymer Organization Guided by 2D Polarization Light Patterns

Abstract: Figure 8 . a) Experimental set-up for measuring the polarization dependent diffraction intensities of the OLP hologram. The circularly polarized probe beam is passed through a polarizer (P) in order to vary the angle α of the polarization plane. b) The intensity of the ± x and ± y diffraction orders is reported versus the polarization direction α of the probe beam.

“…An azobenzene sulfonic dye SD1 (DIC Inc.) is used as the photoalignment material for the interference pattern recording [ Fig. 1(b)] [22,23]. To get a photoalignment layer, the SD1 powder is dissolved in N,N-dimethylformamide (DMF) at a concentration of 1 wt% and spincoated on glass substrate at 3000 rpm for 30 s, which is then soft-baked at 100 °C for 10 min for solvent evaporation, giving a 10 nm-thick solid film.…”

“…However, the intensity modulations of the multi-beam polarization holography could cause either topological relief imposed 2D polarization structure of photo-sensitive polymers [19], or non-complete reorientation of the photosensitive material since null intensity areas existed in the interference field [20]. By introducing relative phases into four interferential CP beams, the intensity modulation could be suppressed, thus a 2D pure polarization microstructures was obtained [21,22]. However, the special relative phase arrangement makes it inappropriate for certain applications, and the usage of polymer makes the grating not tunable by electric field.…”

Photoalignment-induced two-dimensional liquid crystal polarization structure via multi-beam polarization interferometry

“…An azobenzene sulfonic dye SD1 (DIC Inc.) is used as the photoalignment material for the interference pattern recording [ Fig. 1(b)] [22,23]. To get a photoalignment layer, the SD1 powder is dissolved in N,N-dimethylformamide (DMF) at a concentration of 1 wt% and spincoated on glass substrate at 3000 rpm for 30 s, which is then soft-baked at 100 °C for 10 min for solvent evaporation, giving a 10 nm-thick solid film.…”

“…However, the intensity modulations of the multi-beam polarization holography could cause either topological relief imposed 2D polarization structure of photo-sensitive polymers [19], or non-complete reorientation of the photosensitive material since null intensity areas existed in the interference field [20]. By introducing relative phases into four interferential CP beams, the intensity modulation could be suppressed, thus a 2D pure polarization microstructures was obtained [21,22]. However, the special relative phase arrangement makes it inappropriate for certain applications, and the usage of polymer makes the grating not tunable by electric field.…”

Photoalignment-induced two-dimensional liquid crystal polarization structure via multi-beam polarization interferometry

“…The structure and phase state of different generation LC carbosilane dendrimers with various types of terminal groups are examined in detail at the present time [9][10][11][12]. However the data on thermodynamic properties of liquid-crystalline dendrimers are absent.…”

Thermodynamic properties of liquid-crystalline carbosilane dendrimers of the second and the fourth generation with methoxyphenylbenzoate terminal groups

“…[ 17 ] Thereby, the possibility to orient azo-materials in nearly any direction and their light-induced molecular displacement, enables them to be transformed into sophisticated shapes, [ 12 ] providing new opportunities for the fabrication of micro-and nanoarchitectures. [ 18 ] Large and reversible photoinduced linear (LB) and circular birefringences (CB) make azo-materials very attractive for optical data storage and, more particularly, for holographic recording applications, which enable optical devices whose properties strongly depend on the relative values of LB and CB. [ 9 ] The possibility to induce LB and CB in azo-materials by irradiation with properly polarized light has been widely demonstrated, but a CB at least one order of magnitude lower than the linear one is usually observed.…”

A Bifunctional Amorphous Polymer Exhibiting Equal Linear and Circular Photoinduced Birefringences