神经形态工程学
材料科学
晶体管
突触
人工神经网络
光电子学
计算机科学
非易失性存储器
限制
调制(音乐)
纳米技术
记忆电阻器
电导
电压
突触可塑性
钥匙(锁)
逻辑门
电子工程
生物电子学
范德瓦尔斯力
电容器
场效应晶体管
和大门
光开关
作者
Wennan Hu,Zheng Zhang,Zheng Zhang,Haoran Sun,Yuehao Zhao,Yaping He,Zhe Sheng,Z. Zhang,Z. Zhang
标识
DOI:10.1021/acsami.5c17888
摘要
Floating-gate memories based on two-dimensional (2D) materials show great potential for mimicking synapses in artificial neural networks (ANNs), offering a promising pathway toward hardware neuromorphic computing. However, current implementations predominantly rely on electrical modulation, limiting their applications in future artificial visual systems. Here, we demonstrate an electrooptic dual-mode artificial synapse based on a van der Waals heterostructured MoS2 floating-gate transistor. This device uniquely combines electrically controlled nonvolatile programmability with light-tunable multilevel storage states, enabling versatile synaptic functionalities. Specifically, electrical stimulation induces key synaptic behaviors, including excitatory/inhibitory responses and long-term potentiation/depression, while optical excitation facilitates long-term neuroplasticity through persistent multilevel conductance states. It can also work as an optoelectronic heterosynaptic transistor and perform dual-mode modulation through both electrical and optical inputs. With this characteristic, we demonstrate its application in an ANN visual sensor, which achieves a remarkable recognition accuracy of 91.97% in handwritten digit classification.
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