Preparation of MXene-based hybrids and their application in neuromorphic devices

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外文摘要：The traditional von Neumann computing architecture has relatively-low information processing speed and high power consumption,making it difficult to meet the computing needs of artificial intelligence(AI).Neuromorphic computing systems,with massively parallel computing capability and low power consumption,have been considered as an ideal option for data storage and AI computing in the future.Memristor,as the fourth basic electronic component besides resistance,capacitance and inductance,is one of the most competitive candidates for neuromorphic computing systems benefiting from the simple structure,continuously adjustable conductivity state,ultra-low power consumption,high switching speed and compatibility with existing CMOS technology.The memristors with applying MXene-based hybrids have attracted significant attention in recent years.Here,we introduce the latest progress in the synthesis of MXene-based hybrids and summarize their potential applications in memristor devices and neuromorphological intelligence.We explore the development trend of memristors constructed by combining MXenes with other functional materials and emphatically discuss the potential mechanism of MXenes-based memristor devices.Finally,the future prospects and directions of MXene-based memristors are briefly described.

外文关键词：

MXeneetchingfabricationmemristorneuromorphic

作者：

Zhuohao Xiao、Xiaodong Xiao、Ling Bing Kong、Hongbo Dong、Xiuying Li、Bin He、Shuangchen Ruan、Jianpang Zhai、Kun Zhou、Qin Huang、Liang Chu

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作者单位：

School of Materials Science and Engineering,Jingdezhen Ceramic University,Jingdezhen 333403,Jiangxi,People's Republic of China

School of Mechanical and Vehicle Engineering,Linyi University,Linyi 276000,Shandong,People's Republic of China

College of New Materials and New Energies,Shenzhen Technology University,Shenzhen 518118,Guangdong,People's Republic of China

School of Mechanical & Aerospace Engineering,Nanyang Technological University,50 Nanyang Avenue,Singapore 639798,Singapore

Ningbo Institute of Materials Engineering and Technology,Chinese Academy of Science,Ningbo 315201,Zhejiang,People's Republic of China

Institute of Carbon Neutrality and New Energy & School of Electronics and Information,Hangzhou Dianzi University,Hangzhou 310018,Zhejiang,People's Republic of China

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基金：

National Natural Science Foundation of ChinaNational Natural Science Foundation of ChinaNational Natural Science Foundation of ChinaJiangxi Provincial Science and Technology ProjectsJiangxi Provincial Science and Technology ProjectsJiangxi Provincial Science and Technology ProjectsJiangxi Provincial Science and Technology ProjectsJiangxi Provincial Science and Technology ProjectsInnovation Enterprise Program of Shandong ProvincialGuangdong Basic and Applied Basic Research FoundationGeneral Projects of Shenzhen Stable DevelopmentUniversity Engineering Research Center of Crystal Growth and Applications of Guangdong Province

项目编号：

52172205521720705196201320232ACB20400920223AAE0201020201BBE51011jxsq2019201036GJJ2013192023TSGC04692020B1515120002SZWD20210032020GCZX005

出版年：

2024

DOI：

10.1088/2631-7990/ad1573

极端制造(英文)

CSTPCDEI

ISSN：

年,卷(期)：2024.6(2)