Soluble hybrid films have been successfully fabricated by one-step process. The soluble polyimide (PI) were prepared by the reaction of Bicyclo[2.2.2]oct-7-ene-2,3,5,6-tetracarboxylic dianhydride (BCDA) and 4,4'-Diaminodiphenyl Ether (ODA) in m-cresol at 70~180℃. The main studies of this dissertation were divided into two parts. The first part includes: synthesis and characteristic analysis of polyimide /SiO2 hybrid films. The PI/SiO2 hybrid films exhibit light transmittance higher than 80%, glass transition temperatures (Tg) increased to 380℃ and thermal expansion coefficient (CTE) down from 42.6ppm/℃ to 35.5ppm/℃. The CTE of PI/SiO2 hybrid films lower approximately 17% than that of the pristine PI film. The second part of this thesis covers the effect of ammonium formate contents in the Polyimide/ammonium formate hybrid films on the optics properties, thermal properties, dynamic mechanical properties,dielectric constants. Polyimide hybrid films doped with the ammonium formate cause the formation of the tiny hole inside polyimide films. The ammonium formate promotes the free volume content by the gas formation of NH3、H2O and CO during imidization. The dielectric constants and thermal expansion coefficiency (CTE) were decreased 11.5% and 8.2%, respectively. However, increasing the ammonium formate contents does not deteriorate ate the polyimide excellent thermal properties surprisingly the storage modulus was enhanced 12.7%.