神经形态工程学
材料科学
光电子学
记忆电阻器
跨阻放大器
光电导性
逻辑门
异质结
多光谱图像
噪音(视频)
非易失性存储器
实现(概率)
纳米线
二进制数
双极结晶体管
旋涂
红外线的
计算机科学
调制(音乐)
发光二极管
和大门
光电效应
紫外线
可见光谱
黑磷
作者
Shanwu Ke,Yang Li,Yuanduo Qu,Hao Huang,Mengdi Hao,Li Yang,Qiqian Wu,Cong Ye,Paul K. Chu,Xue‐Feng Yu,Jiahong Wang
标识
DOI:10.1002/adma.202522710
摘要
ABSTRACT Although optoelectronic memristors with nonvolatile bipolar photoconductivity enable in‐sensor vision‐centric neuromorphic hardware, achieving wavelength‐defined polarity inversion across a broad spectrum remains a challenging task. Herein, a stable optoelectronic memristor composed of nonstoichiometric lead oxide (PbO x ) coated black phosphorus (BP) nanosheets is demonstrated. The optoelectronic processes in the PbO x ‐BP heterostructure result in programmable polar photoresponses across the 365 nm – 1,550 nm wavelength range. Visible light causes positive photoconductance via photoelectrochemical Ag + reduction and conductive filament reconstruction. Conversely, ultraviolet light drives the reverse photogenerated electron transfer to chemically oxidize the Ag CFs, while infrared light induces their localized melting via the photothermal effect. This bipolar optoelectronic tunability enables all‐optical Boolean logic operations, allowing for the realization of 14 binary functions through optical reconfiguration. Furthermore, multispectral computing tasks, including edge extraction and spectral noise suppression, are performed, yielding a classification accuracy of up to 98.6% for 16 crop species using an all‐optical convolutional neural network. The ultra‐thin oxide coating presents an effective surface modification approach to improve two‐dimensional devices, while the optoelectronic bipolarity establishes a framework for all‐optical modulation in neuromorphic machine vision.
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