The purpose of this study is to develop a pseudo-Polyimide (PI) vertical alignment (VA) copolymer film which is a non-contact photoalignment method for liquid crystal (LC) devices. We used the LC/photocurable monomer phase separation technique. In a mixture of negative dielectric anisotropy (N-type) LC, and alkyl long carbon chain acrylic monomer, two different lengths of biphenol main chain type acrylic monomers and a photoinitiator were combined in the proper ratio. Forming the upper and lower layers of a VA copolymer film only required Ultra-Violet (UV) light irradiation to aid the phase separation of the LC mixture system. As for the different length main chain type acrylic monomer structures for the LC molecules under the VA mode, properties such as optical transmittance, contrast ratio and response time, have been characterized. The result of this experiment revealed that changing the length of main chain type acrylic monomers in some cases improved the electro-optical properties of LC devices. The contrast ratio reached 2028:1 under the proper ratio LC mixture system. This novel VA technology for the liquid crystal displays (LCDs) industry can replace PI pre-processing and we hope to use the photoalignment technique to build in excellent electro-optical characteristics and low cost LC devices.