In my thesis, it is composed of three major parts : In first part, I introduce different weight ratios of TEOS into layer of nano porous clay, and use acid as a catalyst to go through a condensation procedure named Sol-Gel reaction between TEOS and hydroxyl groups on the clay and thus resulting mesoporous silica inorganic nanoparticles or inside between layer and layer. On the basis of Dynamic Light Scattring ( DLS ), Specific Surface Area & Pore Size Distribution Analyzer, the dispersion property and pore volume can be controlled by varying the mass ratio TEOS/Clay and adding trace amount of acid as catalyst. The follow by second part, by utilizing One-step Method and different mass ratio of PMDA, ODA, and MDI, different structures of Poly( urea-imide )( PUI ) can be synthesized. The thermal stability and mechanical property are measured by Thermal Gravimetric Analysis ( TGA ) and Tensile Strength Test. The final parts is the combination of section one and two, Nano porous clay are blended with Poly( urea-imide ) to produce Poly( urea-imide )/Clay Nanocomposite. It can be determined by Thermal Gravimetric Analysis ( TGA ) and Tensile Strength Test that the thermal stability and mechanical property are enhanced by increasing the mass ratio between Clay and PUI. In addition, the dielectric constant is decreased with the increasing mass ratio of Clay/PUI.