Effect of polysiloxane Liquid Crystal Polymer on tin Oxide(SnO₂) Nanoparticles Properties for Humidity and Climate Components Sensors

In the conjugation between atmosphere, land and hydrometeorology, one of the primary concerns is how the environment and climate depend on the interaction between precipitation, soil and plant moisture, clouds and irradiation (Rn). Throughout the hot season, the Earth's surface temperature is determined by large-scale synoptic processes, the atmosphere boundary layer (BL), storms, and precipitation. To study all climate and humidity properties, various devices in which liquid crystals are used. In this study, the properties of liquid crystals are studied and improved. and using nanomaterials for better, faster and accurate results.

The effect of sno₂ nanoparticles on the properties of electro-optical polysiloxane crystals used in humidity and climate measuring devices has been studied. Five different ratios of nanoparticles were added to the liquid molecular weight of liquid crystal siloxin. We note that the viscosity of the polymer will affect the properties of the liquid crystal, and the glass transfer temperature will decrease due to the added nanoparticles. As a result of the theoretical threshold voltage effort, the effect of sno2 nanoparticles on voltage and response times has been studied.