【學術亮點】Tribotronics for bioinspired neuromorphic tactile perception and computing
Facility Agricultural: Green Energy Development and Carbon Offset【Department of Materials Science Engineering / Lai, Ying-Chih / Distinguished Professor】
設施農業:農業綠能開發與碳匯補償【材料科學與工程學系賴盈至教授/特聘教授】
| 論文篇名 | 英文:Tribotronics for bioinspired neuromorphic tactile perception and computing 中文:摩擦電子學用於仿生神經形態觸覺感知與計算 |
| 期刊名稱 | ACS Nano |
| 發表年份,卷數,起迄頁數 | 2025, 50, 181-189 |
| 作者 | Zhao, Junqing; Zhao, Keyang; Li, Mengjiao; Lai, Ying-Chih(賴盈至)*; Zhang, Chi |
| DOI | 10.1557/s43577-024-00840-4 |
| 中文摘要 | 摩擦電子學在機器人技術、仿生學和神經科學領域日益受到關注。本文系統概述了摩擦電子學在神經形態裝置開發及其應用方面的應用。首先,本文闡明了基於摩擦電子電晶體的人工突觸的基本工作機制,包括電解質閘極人工突觸、浮柵人工突觸和范德華異質結構人工突觸。此外,本文也深入研究了摩擦電子學在神經形態觸覺感知和計算系統中的應用。最後,本文概述了摩擦電子學面臨的挑戰和未來前景。本文展示了摩擦電子學在推動新型神經形態元件和人工神經網路系統的巨大潛力。 |
| 英文摘要 | Tribotronics has garnered increasing attention in robotics, bionics, and neuroscience. This article presents a systematic overview of tribotronics for developing neuromorphic devices and their applications. Initially, the fundamental operational mechanisms of tribotronic transistor-based artificial synapses are elucidated, encompassing electrolyte-gate artificial synapses, floating-gate artificial synapses, and van der Waals heterostructure artificial synapses. Furthermore, applications of tribotronics in neuromorphic tactile perception and computing systems have been thoroughly examined. Finally, the challenges and future prospects of tribotronics were delineated. This article demonstrates the promising potential of tribotronics for advancing novel neuromorphic devices and artificial nervous network systems. |
| 發表成果與本中心研究主題相關性 | 新能源擷取、物聯網自發電感測 |
