Novel <scp>Porphyrin‐Containing</scp> Polymer Based Memristor for Synaptic Plasticity Simulation
Linyi Bian, Meng Xie, Hao Chong, Zhewei Zhang, Guangyi Liu, Qiushuo Han, Jiaoyang Ge, Zheng Liu, Lei Yang, Guangwei Zhang, Linghai Xie
Abstract
Comprehensive Summary The porphyrin‐based copolymer PZnTPP‐SFX is designed and synthesized by alternating porphyrin and spiro[fluorene‐9,9'‐xanthene] via Suzuki copolymerization. A simple memristor structure of ITO/ZnTPP‐SFX/AlO x /Al was fabricated by spin‐coating process. The conventional synaptic plasticity is emulated using the single memristor including nonlinear transmission characteristics, spike‐timing dependent plasticity and spike‐rate dependent plasticity. New spike‐voltage dependent plasticity is also found in the memristor which can selectively perform potentiation and depression behaviors at a unipolar voltage. Compared with the device performance of uncoordinated metalloporphyrin polymer, it was found that oxygen vacancies diffuse and migrate into PZnTPP‐SFX layer with the assist of coordination metal. This study suggests that porphyrin‐based polymers have great promise for synaptic simulation of artificial neural network.