基于mxene记忆电阻器在神经形态智能应用中的应用

IF 3 4区物理与天体物理 Q2 PHYSICS, MULTIDISCIPLINARY

Contemporary Physics Pub Date : 2022-04-03 DOI:10.1080/00107514.2022.2160542

Xiaojuan Lian, Yuelin Shi, Shiyu Li, Bingxin Ding, Chenfei Hua, Lei Wang

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引用次数: 0

摘要

MXenes是一种具有多层过渡金属碳化物、氮化物和碳氮化物的材料，由于其在光子二极管储能方面的广泛应用而受到了广泛的关注。此外，在受到电刺激时，发现仅包含MXene层或MXene与其他功能层的组合的纳米级器件表现出多种非挥发性电阻状态。因此，MXene层最近显示出与众所周知的记忆电阻器概念的紧密联系，因此各种基于MXene的记忆电阻器已被开发用于新兴的神经形态应用。尽管目前很繁荣，但基于mxene的器件实现记忆行为的物理原理仍然模糊，并且这些基于mxene的忆阻器的优缺点与它们的性能比较都缺失。为了解决这些问题，我们首先根据其有源层的构成提出了不同类型的基于mxene的忆阻器，并分析了控制这些忆阻器忆阻行为的可能物理机制。随后讨论了所报道的基于mxene的记忆电阻器的应用前景，特别是在神经形态智能领域。最后，展望了基于mxene的忆阻器的优缺点及其应用前景。

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Applications of MXene-based memristors in neuromorphic intelligence applications

MXenes are materials with a few thick layers of transition metal carbides, nitrides, and carbonitrides and have received considerable attention because of their widespread application in energy storage in photonic diodes. In addition, nanoscale devices that include either an MXene layer only or a combination of MXene and other functional layers were found to exhibit multiple non-volatile resistance states when subjected to an electrical stimulus. Therefore, the MXene layer has most recently shown a strong liaison with the concept of the well-known memristor, whereby a variety of MXene-based memristors have been developed for emerging neuromorphic applications. Despite the current prosperity, the physics behind which MXene-based devices enable memristive behaviour remains vague, and the advantages and disadvantages of these reported MXene-based memristors in association with their performance comparisons are missing. To address these issues, we first presented different types of MXene-based memristors according to the constitutions of their active layers, and the possible physical mechanisms that govern the memristive behaviours of these memristors were analysed. The promising applications of the reported MXene-based memristors, particularly in the field of neuromorphic intelligence, are subsequently discussed. Finally, the advantages and disadvantages of MXene-based memristors and their practical prospects are envisaged.

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来源期刊

Contemporary Physics 物理-物理：综合

CiteScore

2.90

自引率

5.00%

发文量

审稿时长

>12 weeks

期刊介绍： Contemporary Physics presents authoritative and lucid introductory review articles on important recent developments in physics. The articles are specially commissioned from experts in their field. The authors aim to review comprehensively the current state of their subject and place it within a broader context of contemporary research, industrial possibilities and applications in an accessible way. The Journal is of particular use to undergraduates, teachers and lecturers and those starting postgraduate studies who wish to be introduced to a new area. Readers should be able to understand the review without reference to other material, although authors provide a full set of references so that those who wish to explore further can do so. The reviews can also be profitably read by all those who wish to keep abreast of the fields outside their own, or who need an accessible introduction to a new area. Articles are written for a wide range of readers, whether they be physicists, physical scientists or engineers employed in higher education, teaching, industry or government. Contemporary Physics also contains a major section devoted to standard book reviews and essay reviews which review books in the context of the general aspects of a field.