Neuromorphic Computing: A Fully Printed Flexible MoS2 Memristive Artificial Synapse with Femtojoule Switching Energy (Adv. Electron. Mater. 12/2019),Advanced Electronic Materials

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Neuromorphic Computing: A Fully Printed Flexible MoS2 Memristive Artificial Synapse with Femtojoule Switching Energy (Adv. Electron. Mater. 12/2019)
Advanced Electronic Materials ( IF 5.3 ) Pub Date : 2019-12-05 , DOI: 10.1002/aelm.201970061
Xuewei Feng , Yida Li , Lin Wang , Shuai Chen , Zhi Gen Yu , Wee Chong Tan , Nasiruddin Macadam , Guohua Hu , Li Huang , Li Chen , Xiao Gong , Dongzhi Chi , Tawfique Hasan , Aaron Voon‐Yew Thean , Yong‐Wei Zhang , Kah‐Wee Ang

In article number 1900740, Tawfique Hasan, Aaron Thean, Yong‐Wei Zhang, Kah‐Wee Ang, and co‐workers report the demonstration of flexible MoS2 memristive artificial synapses via scalable, low‐temperature aerosol‐jet printing. Fully printed memristors in a cross‐bar structure enable efficient emulation of synaptic plasticity functions with femtojoule energy consumption. This work paves the way toward realizing system‐on‐plastics for brain‐inspired neuromorphic computing.

中文翻译：

神经形态计算：具有Femtojoule转换能量的全印刷柔性MoS2忆阻人工突触（Adv。Electron。Mater。12/2019）

Tawfique Hasan，Aaron Thean，Zhang-Wei Ang，Kah-Wee Ang和他的同事们在编号1900740中报告了通过可扩展的低温气溶胶喷射印刷来演示柔性MoS2忆阻性人工突触的演示。横杆结构的全印刷忆阻器可有效模拟突触可塑性功能并消耗飞兆焦耳的能量。这项工作为实现用于脑启发性神经形态计算的塑料系统铺平了道路。

更新日期：2019-12-05

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