MXene-Ti3C2Tx-Based Neuromorphic Computing: Physical Mechanisms, Performance Enhancement, and Cutting-Edge Computing

神经形态工程学 计算机体系结构 计算机科学 材料科学 边缘计算 GSM演进的增强数据速率 非常规计算 边缘设备 纳米技术 人工智能 人工神经网络 分布式计算 云计算 操作系统
作者
Kaiyang Wang,Shuhui Ren,Yunfang Jia,Xiaobing Yan,Lizhen Wang,Yubo Fan
出处
期刊:Nano-micro Letters [Springer Science+Business Media]
卷期号:17 (1): 273-273 被引量:15
标识
DOI:10.1007/s40820-025-01787-0
摘要

Abstract Neuromorphic devices have shown great potential in simulating the function of biological neurons due to their efficient parallel information processing and low energy consumption. MXene-Ti 3 C 2 T x , an emerging two-dimensional material, stands out as an ideal candidate for fabricating neuromorphic devices. Its exceptional electrical performance and robust mechanical properties make it an ideal choice for this purpose. This review aims to uncover the advantages and properties of MXene-Ti 3 C 2 T x in neuromorphic devices and to promote its further development. Firstly, we categorize several core physical mechanisms present in MXene-Ti 3 C 2 T x neuromorphic devices and summarize in detail the reasons for their formation. Then, this work systematically summarizes and classifies advanced techniques for the three main optimization pathways of MXene-Ti 3 C 2 T x , such as doping engineering, interface engineering, and structural engineering. Significantly, this work highlights innovative applications of MXene-Ti 3 C 2 T x neuromorphic devices in cutting-edge computing paradigms, particularly near-sensor computing and in-sensor computing. Finally, this review carefully compiles a table that integrates almost all research results involving MXene-Ti 3 C 2 T x neuromorphic devices and discusses the challenges, development prospects, and feasibility of MXene-Ti 3 C 2 T x -based neuromorphic devices in practical applications, aiming to lay a solid theoretical foundation and provide technical support for further exploration and application of MXene-Ti 3 C 2 T x in the field of neuromorphic devices.
最长约 10秒,即可获得该文献文件

科研通智能强力驱动
Strongly Powered by AbleSci AI
科研通是完全免费的文献互助平台,具备全网最快的应助速度,最高的求助完成率。 对每一个文献求助,科研通都将尽心尽力,给求助人一个满意的交代。
实时播报
慕青应助蹀躞蹀采纳,获得10
刚刚
科研通AI6.2应助Samamms采纳,获得10
1秒前
1秒前
abcdlove发布了新的文献求助10
1秒前
1秒前
Ethanyoyo0917发布了新的文献求助10
2秒前
111完成签到,获得积分10
2秒前
慕青应助小海螺采纳,获得10
2秒前
科研通AI6.2应助yuan采纳,获得10
2秒前
omql完成签到,获得积分20
2秒前
2秒前
2秒前
3秒前
3秒前
叶保听完成签到,获得积分10
4秒前
兴奋飞荷发布了新的文献求助10
4秒前
4秒前
可颂发布了新的文献求助10
4秒前
5秒前
An完成签到 ,获得积分10
5秒前
6秒前
畔畔应助bzp采纳,获得30
6秒前
马明旋发布了新的文献求助10
7秒前
7秒前
Hxy完成签到,获得积分10
7秒前
7秒前
顾矜应助huahua采纳,获得10
8秒前
年青完成签到,获得积分10
8秒前
GBY发布了新的文献求助10
8秒前
chen完成签到,获得积分10
8秒前
podo发布了新的文献求助10
8秒前
朱昕民发布了新的文献求助10
8秒前
热情大树发布了新的文献求助10
9秒前
9秒前
XJ116发布了新的文献求助10
9秒前
cici发布了新的文献求助10
9秒前
10秒前
10秒前
10秒前
11秒前
高分求助中
Principles of Economics, 11th Edition 10000
University Physics with Modern Physics, 16th edition 10000
(应助此贴封号)【重要!!请各用户(尤其是新用户)详细阅读】【科研通的精品贴汇总】 10000
Development of a Bridge Weigh-In-Motion System: A technology to convert the bridge response to the passage of traffic into data on vehicle configurations, speeds, times of travel and weights 1000
Organic Reactions, Volume 116 1000
Current concepts in cutaneous toxicity : proceedings of the Fourth Conference on Cutaneous Toxicity, Washington, D.C., May 9-11, 1979 1000
ズームレンズの光学設計に関する研究 800
热门求助领域 (近24小时)
化学 材料科学 医学 生物 纳米技术 工程类 有机化学 化学工程 生物化学 计算机科学 内科学 物理 复合材料 催化作用 细胞生物学 无机化学 光电子学 物理化学 电极 基因
热门帖子
关注 科研通微信公众号,转发送积分 7278750
求助须知:如何正确求助?哪些是违规求助? 8899772
关于积分的说明 18822906
捐赠科研通 6950984
什么是DOI,文献DOI怎么找? 3206968
关于科研通互助平台的介绍 2377520
邀请新用户注册赠送积分活动 2181922