硅基衬底上氮化物基异质结构的忆阻和突触特性

Memristive and Synaptic Characteristics of Nitride-Based Heterostructures on Si Substrate.

作者信息

Rahmani Mehr Khalid, Kim Min-Hwi, Hussain Fayyaz, Abbas Yawar, Ismail Muhammad, Hong Kyungho, Mahata Chandreswar, Choi Changhwan, Park Byung-Gook, Kim Sungjun

机构信息

School of Electronics Engineering, Chungbuk National University, Cheongju 28644, Korea.

Inter-University Semiconductor Research Center (ISRC) and the Department of Electrical and Computer Engineering, Seoul National University, Seoul 08826, Korea.

出版信息

Nanomaterials (Basel). 2020 May 22;10(5):994. doi: 10.3390/nano10050994.

DOI:10.3390/nano10050994

PMID:32455892

原文链接:https://pmc.ncbi.nlm.nih.gov/articles/PMC7279537/

Abstract

Brain-inspired artificial synaptic devices and neurons have the potential for application in future neuromorphic computing as they consume low energy. In this study, the memristive switching characteristics of a nitride-based device with two amorphous layers (SiN/BN) is investigated. We demonstrate the coexistence of filamentary (abrupt) and interface (homogeneous) switching of Ni/SiN/BN/n-Si devices. A better gradual conductance modulation is achieved for interface-type switching as compared with filamentary switching for an artificial synaptic device using appropriate voltage pulse stimulations. The improved classification accuracy for the interface switching (85.6%) is confirmed and compared to the accuracy of the filamentary switching mode (75.1%) by a three-layer neural network (784 × 128 × 10). Furthermore, the spike-timing-dependent plasticity characteristics of the synaptic device are also demonstrated. The results indicate the possibility of achieving an artificial synapse with a bilayer SiN/BN structure.

摘要

受大脑启发的人工突触器件和神经元由于能耗低，在未来的神经形态计算中具有应用潜力。在本研究中，对具有两个非晶层（SiN/BN）的氮化物基器件的忆阻开关特性进行了研究。我们展示了Ni/SiN/BN/n-Si器件中丝状（突变）和界面（均匀）开关的共存。与使用适当电压脉冲刺激的人工突触器件的丝状开关相比，界面型开关实现了更好的渐变电导调制。通过三层神经网络（784×128×10）确认了界面开关的改进分类准确率（85.6%），并与丝状开关模式的准确率（75.1%）进行了比较。此外，还展示了突触器件的脉冲时间依赖可塑性特性。结果表明实现具有双层SiN/BN结构的人工突触的可能性。

https://cdn.ncbi.nlm.nih.gov/pmc/blobs/f659/7279537/c2338952fe41/nanomaterials-10-00994-g001.jpg

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硅基衬底上氮化物基异质结构的忆阻和突触特性

Memristive and Synaptic Characteristics of Nitride-Based Heterostructures on Si Substrate.

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