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Topochemical Synthesis of Copper Phosphide Nanoribbons for Flexible Optoelectronic Memristors

Yanxin Liu, Lie Wu, Qian Liu, Lei Liu, Shanwu Ke, Zehui Peng, Tongyu Shi, Xinru Yuan, Hao Huang, Jia Li, Cong Ye, Paul K. Chu, Jiahong Wang, Xue‐Feng Yu

2021Advanced Functional Materials28 citationsDOI

Abstract

Abstract Metal phosphide nanoribbons are suitable building blocks for flexible photoelectronic microdevices due to the special electronic structure, large contact area, and excellent mechanical properties. In this work, single‐crystal copper phosphide nanoribbons (Cu 3 P NRs) are prepared topochemically from crystalline red phosphorus nanoribbons (cRP NRs) to retain the cRP morphology. The Cu 3 P NRs are used to construct flexible photoelectronic memristors on the ITO/PEN substrate with the native oxidized shell of Cu 3 P NRs serving as the charge trapping layer to modulate the resistance switching characteristics. The Cu 3 P NRs‐based memristors have outstanding nonvolatile memory properties in different mechanical bending states and different bending times. Optically and electrically modulated artificial synaptic functions are observed from the Cu 3 P NRs‐based memristors and owing to the memory backtracking function, pattern recognition is achieved with the Ag/Cu 3 P/ITO artificial synapse array. The topochemical synthesis method constitutes a universal approach to produce nanostructured compounds with an unusual morphology and specific crystalline orientation. The results also reveal that metal phosphides are excellent materials in memristors for future optoelectronic neuromorphic computing.

Topics & Concepts

Materials scienceMemristorPhosphideNanotechnologyCopperSubstrate (aquarium)BendingOptoelectronicsNeuromorphic engineeringMetalComposite materialElectronic engineeringMetallurgyComputer scienceMachine learningOceanographyGeologyEngineeringArtificial neural networkAdvanced Memory and Neural ComputingPolydiacetylene-based materials and applicationsSupramolecular Self-Assembly in Materials