In this study, the macrocyclic porphyrin with the porphyrin and bridging substituent has been synthesized successfully. In the synthesis of macrocyclic porphyrin, we use the temperature changes and the conditions of the reaction to achieve the best yield. The self-assembling of the macrocyclic porphyrin with C70 also has been investigated by using UV/Vis spectroscopy and electrochemistry. According to spectral changes, the formation constant between the macrocyclic porphyrin and C70 could be obtained. Also, we use cyclic voltammetry to observe the redox potentials of macrocyclic porphyrin, and calculate the electron transfer number for each redox potentials of the complex. The porphyrin complex can be applied to the electronic storage system. We found C70 too large to self-assembling, changing imidazole derivative. It can form complex with macrocyclic porphyrin by bonding.