The correlation between the scattering mechanism of mesoporous silica hollow sphere in LCs and temperature

論文翻譯標題: 中孔洞氧化矽空心球在液晶之散射機制與溫度之關係
  • 楊 書寧

學生論文: Master's Thesis

摘要

Mesoporous silica hollow spheres (MPSHSs) doped in liquid crystals (MPSHSs-LCs) exhibits no aggregation and well-dispersed phenomenon which reveals some new physics among MPSHSs and LCs There should be different type of anchoring originated from the surface structure of MPSHSs In order to realize the phenomenon we perform the scattering measurement of MPSHSs-LCs with varied temperature to study the correlation between scattering domain and environment temperature and discuss the dependence of the MPSHS concentration Besides dielectric measurement also performed to assist the study the phase transition during the temperature variation especially in the temperature of phase transition The real part and the image part of dielectrics result reflect the corresponding relaxation frequency of LCs and isotropic state respectively Polymer-dispersed in LCs (PDLCs) chiral LCs (CLCs) and solid silica spheres (SSSs) doped in LCs were also adopted in this work for comparison We also use the mean field theory to explain our experimental results The assumption of anisotropic anchoring in the mean field theory can well explain the relation between Tni (nematic-isotropic transition temperature) and the size and concentration of MPSHSs MPSHS with small size has larger curvature and lead anchoring from the pores of MPSHSs to be strong and random Thus larger affected area around MPSHSs is formed at the case of small MPSHSs We also find the similar behavior in DCS experiments by scattering experiment A dip appears in the scattering experiment with scan temperature An opaque state exists on the period of nematic-isotropic transition which is a transparent nematic state in DSC experiment In the case of MPSHSs the dip is quite small and is suppressed as the disorder state overcome the transparent nematic state at larger size or higher concentration By using two series experiments with different kind of LC scattering devices the correlation with MSPHS and scattering were confirmed
獎項日期2016 2月 18
原文English
監督員Kuang-Yao Lo (Supervisor)

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