The main goal of this study is to use photo-aligment to develop a method for new type polymer-sustained vertical alignment of liquid crystal display device (PSVA LCD). We used the LC/photo-curable monomer phase separation technique and the vertical alignment liquid crystal (VALC) is achieved by mixing negative dielectric anisotropy (N-type) LC, five kinds of the reactive LC monomers which contain two commercial and three synthesized monomers and a photo-initiator. There are upper and lower bilayer of VA microstructure polymer film by UV irradiation, at which the phase separation is carried out, thus, the advantage is omit from protrusion and rubbing processes. Microstructure polymer films provide weak surface energy and induce vertical alignment for liquid crystal spontaneously without any surface treatment. Besides, the polymer films can also provide MVA effect with wide viewing angle and high contrast ratio. There are two main topics in this study. In the first part is to observe the comparison of five different reactive monomers for E-O characteristics and morphology. According to the result of experiment, monomer M1 is capable of fastest response time and highest contrast ratio, because uniform bead like morphology provide a good alignment ability to liquid crystal molecule. In the second part, The responses time and Vth in low gray level could be improved by adding a small amount of M3 into M1, but the contrast ratio decreases 5.3% compare with M1. In general, it is well known that the pixel structure of PSA LCD are protrusion free and higher aperture ratio compare with MVA LCD. By mixing of the M1 and M3 monomer which provided good performance and we hope to use the photo-alignment technique to manufacture excellence electro-optical characteristics and low cost of the LC devices.