Authors : Khalid AL. Ammar, Hassan Shaker Majdi and Mariam Rafied
Abstract: In this study, A series of polymers focused on photovoltaic properties with different molecular weights based on the polysiloxane spine. The reason for reducing molecular weight will reduce the temperature of phase transmission and ultimately to destabilize the stage of infection as well as reducing the observed voltage also reduces, the molecular weight of the polymer. Sn2P2S6 is a multi-stage nanoparticle with repeated ranges of nanoparticles between the different phases in which the material is formed which are also liquid crystals. This is due to be an increase in internal elasticity of aliquid crystals where was found there is a strong coupling between the mesogenic chain and a polymer series and the elasticity of the polymer chain has a strong and effective effect on electrical properties. The direction order of the direction of the mesoginic units is based on a temperature similar to the molecular weight of a polymer that the size of a parameter of demand is most lower. Molecular weight increases polymer change and leads to changes in dynamic response but these time scales are dominated by effects at different temperatures and molecular weight as well.
Khalid AL. Ammar, Hassan Shaker Majdi and Mariam Rafied, 2019. Effect (Sn2P2S6) Nanoparticles on Electre-Optic Properties of Silozane Polymer. Journal of Engineering and Applied Sciences, 14: 10700-10705.