The conductivity and transmittance of a transparent electrode in optoelectronic device play an important role for its application. In recent years, more and more researches indicate that graphene is one of the best candidates because of its extremely high conductivity and transmittance. Due to stress problem, it is hard to make an alignment layer on graphene film as transparent electrode in LC display. In this thesis, we transfer graphene on BSO and glass substrates by wet transfer process. And proving the Graphene quality by Raman microscopy, it shows over 90% is single graphene layer and only few defect was made during transfer. The resistance and transmittance of graphene-based glass substrate is measured and is compared to ITO glass. It shows graphene can replace ITO as transparent electrode. Therefore, we made photo-alignment layer on substrates, building it as anti-parallel cell and liquid crystal light valve(LCLV). The phase retardation and response time are measured. At last we input image in LCLV and real-time displays images.