记忆电阻器
材料科学
机制(生物学)
数码产品
横杆开关
波段图
可穿戴计算机
神经形态工程学
纳米技术
柔性电子器件
光电子学
计算机科学
异质结
电气工程
嵌入式系统
人工神经网络
工程类
物理
人工智能
量子力学
作者
Shouhui Zhu,Bai Sun,Guangdong Zhou,Tao Guo,Chuan Ke,Yuanzheng Chen,Feng Yang,Yong Zhang,Jinyou Shao,Yong Zhao
标识
DOI:10.1021/acsami.2c16569
摘要
Since memristors as an emerging nonlinear electronic component have been considered the most promising candidate for integrating nonvolatile memory and advanced computing technology, the in-depth reveal of the memristive mechanism and the realization of hardware fabrication have facilitated their wide applications in next-generation artificial intelligence. Flexible memristors have shown great promising prospects in wearable electronics and artificial electronic skin (e-skin), but in-depth research on the physical mechanism is still lacking. Here, a flexible memristive device with a Ag/HfOx/Ti/PET crossbar structure was fabricated, and a remarkable analog switching characteristic similar to synaptic behavior was observed. Through detailed data fitting and in-depth physical mechanism analysis, it is confirmed that the analog switching characteristics of the device are mainly caused by carrier tunneling. Furthermore, the memristive properties of the Ag/HfOx/Ag/PET device can be attributed to the conductive filaments formed by the redox reaction of the active metal Ag. Finally, the interfacial barrier is extracted by the Arrhenius diagram and the energy band diagram, which is drawn to clearly demonstrate the conduction mechanism of charge trapping in the device. Therefore, the HfOx-based flexible memristor with analog switching behavior and stable memory performance lays the foundation for cutting-edge applications in wearable electronics and smart e-skin.
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