Abstract
It is well known that the liquid crystal (LC) mesophase is actively used in display technique and biomedicine devices. Unfortunately, the switching time of the devices based on the LCs is not fast enough; thus, it is very important to find novel perspective ways to obtain the good switching time of the LC dipoles used in these devices. Initial orientation of the LC molecules influences the dynamic parameters, for example, the switch-on and switch-off characteristics and the diffraction efficiency of the final devices. Among the different methods and approaches to find the optimized orientation of the inertial LC molecules a nanotechnology approach has shown the best results. This approach allows increasing the transparency, to decrease the resistivity and the number of the functional layers in the sandwich LC structures. Thus, it results in a decrease in the applied bias voltage. The effect is based on the fact that the ITO coating can be considered as the conducting layer and as the orienting (alignment) layer simultaneously. In the current paper, we continue our steps in the direction to find the best way of the LC molecules orientation. It is proposed to consider the LC media sensitization process as the method to change the surface relief when this relief is prepared from the polymeric orienting materials doped with the carbon nano-objects. Based on the solid fullerene-doped polyimide thin films and other organics it can be shown that the content of the fullerenes influences the wetting angle significantly. The fullerene concentration is correlated with the different surface relief view applied in the aligning of the LC molecules. The switching of the LC can be improved; furthermore the novel relief depended on the fullerene content can be used for the optical limiting of the laser irradiation.
Highlights
It is well known that at present time the extensive development of optoelectronics, laser and display technologies, solar energy and gas storage systems, biomedicine devices, etc. has stimulated detailed investigations aimed at increasing the performance of active elements and devices
It can be coincided with the fact that part of the fullerene or the nanotubes molecules as the effective acceptors interact with the donor fragment of the conjugated organic materials, for example, as has been shown in the paper by Kamanina (2008) for the polyimide donor fragment and fullerenes C60 and
If organic materials, including liquid crystals (LC) ones, sensitized with fullerenes or nanotubes are supposed to be used for the attenuation of the laser irradiations in the optoelectronic schemes, in addition to reverse saturable absorption, absorption by the intermolecular charge transfer complex, as well as the influence of the thermal factor, it is necessary to take into account the reflection from the modified surfaces, as is shown in the current paper
Summary
It is well known that at present time the extensive development of optoelectronics, laser and display technologies, solar energy and gas storage systems, biomedicine devices, etc. has stimulated detailed investigations aimed at increasing the performance of active elements and devices. It is important to mention that the poly(methyl phenyl silane) polymer systems were carefully investigated for the optical limiting evidence in the paper by Zyev (2013), as well as the poly(butyl methacrylate) compounds synthesis and properties have been presented recently in the paper by Pozdnyakov (2018). One can suggest that the wetting angle is significantly changed It can be coincided with the fact that part of the fullerene or the nanotubes molecules as the effective acceptors interact with the donor fragment of the conjugated organic materials, for example, as has been shown in the paper by Kamanina (2008) for the polyimide donor fragment and fullerenes C60 and. It predicts the development of the intermolecular charge transfer process and increased composite dipole moment
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