Data encryption/decryption and medical image reconstruction based on a sustainable biomemristor designed logic gate circuit
Fulai Lin, Yu‐Chen Cheng, Zhuoqun Li, Chengjiang Wang, Wei Peng, Zelin Cao, Kaikai Gao, Yu Cui, Shiyang Wang, Qiang Lu, Kun Zhu, Dinghui Dong, Yi Lyu, Bai Sun, Fenggang Ren
Abstract
Memristors are considered one of the most promising new-generation memory technologies due to their high integration density, fast read/write speeds, and ultra-low power consumption. Natural biomaterials have attracted interest in integrated circuits and electronics because of their environmental friendliness, sustainability, low cost, and excellent biocompatibility. In this study, a sustainable biomemristor with Ag/mugwort:PVDF/ITO structure was prepared using spin-coating and magnetron sputtering methods, which exhibited excellent durability, significant resistance switching (RS) behavior and unidirectional conduction properties when three metals were used as top electrode. By studying the conductivity mechanism of the device, a charge conduction model was established by the combination of F-N tunneling, redox, and complexation reaction. Finally, the novel logic gate circuits were constructed using the as-prepared memristor, and further memristor based encryption circuit using 3-8 decoder was innovatively designed, which can realize uniform rule encryption and decryption of medical information for data and medical images. Therefore, this work realizes the integration of memristor with traditional electronic technology and expands the applications of sustainable biomemristors in digital circuits, data encryption, and medical image security. • A sustainable biomemristor with Ag/mugwort:PVDF/ITO structure was prepared using spin-coating and magnetron sputtering methods. • The as-prepared memristor exhibits excellent durability, significant resistance switching (RS) behavior, and unidirectional conduction properties. • A charge conduction model is established by the combination of F-N tunneling, redox and complexation. • The novel logic gate circuits were constructed and realized uniform rule encryption and decryption of medical information for date and medical images. • This work expands the applications of sustainable biomemristor in digital circuits, data encryption, and medical image security.