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- Title
Experimental and First‐Principles Study of Visible Light Responsive Memristor Based on CuAlAgCr/TiO<sub>2</sub>/W Structure for Artificial Synapses with Visual Perception.
- Authors
Liu, Xiaoyan; Yu, Jinghao; Ye, Pengfei; Gu, Liang; Qin, Haiming; Wang, Ning; Li, Hang; Wang, Yu; Zhang, Miaocheng; He, Nan; Wan, Xiang; Lian, Xiaojuan; Hu, Er‐Tao; Tong, Yi; Wang, Lei
- Abstract
The development of vision bionic systems is indispensable for the perception, memory, and processing of optical signals, which promotes the exploration of efficient visual perception systems. In this work, a simple and novel two‐terminal optoelectronic memristor based on the CuAlAgCr/TiO2/W (CTW) structure is prepared, where the CuAlAgCr high‐entropy alloys are employed as the top electrode for the first time. Before annealing, the CTW optoelectronic memristor exhibited fascinating performance, including uniformly distributed operating voltage, reliable data retention, and a higher switching ratio. Moreover, the optoelectronic memristor can be reversibly switched between volatile and nonvolatile memories by adjusting compliance currents. The CTW optoelectronic memristor annealed in air exhibits various artificial synaptic functions, such as short‐term memory, optical learning, and forgetting behavior under the illumination of the laser. The photo‐response current is increased from nano‐ampere to micro‐ampere level. Furthermore, a logic function unit based on CTW optoelectronic memristor is proposed, which realizes "AND" operation. Furthermore, first‐principles calculations of the CTW structure are performed to describe the influence of photocarriers on the barrier height at the CuAlAgCr‐TiO2 interface, revealing the working mechanism of the CTW optoelectronic memristor. This work has greatly facilitated the development of optically operated artificial synaptic devices and vision bionic systems.
- Subjects
VISIBLE spectra; SIGNAL processing; SHORT-term memory; NONVOLATILE memory; RECORDS management; LOW vision; VISUAL perception; HEBBIAN memory
- Publication
Advanced Electronic Materials, 2023, Vol 9, Issue 5, p1
- ISSN
2199-160X
- Publication type
Article
- DOI
10.1002/aelm.202201320