Liquid crystal (LC) alignments by using photo-induced dye-adsorption (PIDA) in dye-doped liquid crystal (DDLC) film have been studied extensively. The conformation of dye molecules such as Methyl Red in a LC mixture could be changed by absorption of an incident laser beam. The precipitation of conformation-changed dye molecules onto the LC-cell substrates would alter the LC-alignment. We call such LC-alignment as the PIDA method. In this thesis, we have used both rubbing alignment (as the first step) and the PIDA method (as a second step) to fabricate our DDLC samples. We have found that the resulted LC-alignment direction was the balance between the strength and direction of rubbing alignment and that of the PIDA method. We have fabricated the best DDLC phase grating by using rubbing alignment with rubbing depth of 300μm and the PIDA method within a range of photo-exposure. We have measured the first-order diffraction efficiency and contrast ratio of the fabricated DDLC phase grating by using an experimental scheme that the polarization of the incident light formed angles of 0°, 45° and 90° with respect to the rubbing direction for LC alignment. For comparison, we have also fabricated and measured DDLC phase gratings by using rubbed polyimide films for parallel alignments to replace vertical alignments. We conclude that DDLC phase gratings fabricated by using rubbed vertical-alignment film followed by the PIDA alignment can achieve polarization-independent and high contrast ratio in the first-order diffraction.