In this study, the photosensitive resin mixed with carbon nanotubes was used as the printing materials, and the conductive structures were printed by a DLP (Digital Light Processing) top-down system with the DLP projector as light source and the additional sweeper mechanism. The relationship between the resistance of the printing materials before, during, and after curing and the related parameters was discussed. The printing materials were divided into two types according to outer diameter and length of mixed carbon nanotubes, and the influence of size of carbon nanotubes on the resistance of the printing materials was discussed. Firstly of all, the relationship between a resistance of the printing materials and a time after carbon nanotubes in the printing materials were uniformly dispersed by equipments was discussed, and the relationship between the resistance of the printing materials and applied current at the same time was further discussed. Then, the resistance of the printing materials was measured simultaneously during printing process in order to know more about the resistance change of the printing materials during printing process, and compared the resistance of the printing materials before and after curing. After printing and getting the conductive structures, this study tried to heat the structures at high temperature to discuss the change of the resistance, and also tried to place the structures in two environments with different humidity for a month to observe the effect of moisture on the resistance of the structures . Finally, the interdigitated structures were printed and gotten, and the problems encountered in the process of printing the interdigitated structures were explained. Then, the interdigital structures were tested to obtain the relationship between their capacitance and impedance and ambient temperature and humidity.Then, the theoretical capacitance was calculated and compared with related references.