Solid oxide fuel cells (SOFC) is a fuel cell has the highest power generation performance, however, the energy density is lower than another type of fuel cells, and downsizing is necessary. By applying a pattern to the interface between the electrode and the electrolyte, it is possible to increase the amount of power generation per volume. In this study, imprint processing was performed on an electrode and electrolyte laminate material composed of particle dispersion resin, which is a material of SOFC, to concurrently impart a wave pattern of order of several micrometers to the electrolyte surface and the laminated interface. In addition, we will grasp the deformation behavior of the interfacial shape of laminated resin and try to control the interface shape.