Field-effect transistor (FET) is a transistor that uses an electric field to control the shape and hence the conductivity of a channel of one type of charge carrier in a semiconductor material. In this work, graphene oxide (GO) was synthesized from oxidation graphite powders according to modified Hummers method. As a result, GO can well dispersed in H2O or ethanol. Next graphene oxide was subjected to photoreduction via direct UV irradiation without photocatalyst. Reduced graphene oxide (rGO) was obtained. Then block copolymer micelle lithography was applied to fabricate nano-particulate arrays such as ZnO, which play an role as a photocatalyst for the formation of nanoporous rGO materials. Finally we can fabricate the “graphene-based nanomesh(GNM)” FETs. We compare two types of FETs, one is made of rGO by UV irradiation in the absence of ZnO photocatalyst, and the other is made of rGO atop arrays of ZnO. This facile fabrication of rGO field-effect transistors can simplify the current procedures.