Solution-processed memristors: performance and reliability

IF 79.8 1区材料科学 Q1 MATERIALS SCIENCE, MULTIDISCIPLINARY

Nature Reviews Materials Pub Date : 2024-04-12 DOI:10.1038/s41578-024-00661-6

Sebastian Pazos, Xiangming Xu, Tianchao Guo, Kaichen Zhu, Husam N. Alshareef, Mario Lanza

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Abstract

Memristive devices are gaining importance in the semiconductor industry for applications in information storage, artificial intelligence cryptography and telecommunication. Memristive devices fabricated by solution-processing methods can be integrated into a wide variety of large-area substrates, which has motivated their use in applications requiring flexible, stretchable, transparent and biocompatible devices. Several studies on solution-processed memristors have claimed excellent electrical performance; however, in many cases such claims are based on scarce measurements conducted on only one device, using unreliable testing protocols or using device structures that are too large for the target applications. Understanding the reliability of a memristive structure is important to avoid hyped expectations, attract potential investments in such technology, and realistically understand its potential impact on society and on the market. In this Perspective, we analyse which solution-processed memristors have so far exhibited the highest and most reliable electronic performance, irrespective of the type of material used and the application targeted. For that group of memristors, we also discuss the switching mechanism and potential applications, as well as possible improvements in terms of device technology. We describe the outlook of this field with aims of increasing the impact and technology readiness of solution-processed memristors. Memristive devices are emerging within the semiconductor industry. Solution-processed memristors present alternatives for flexible, transparent and low-cost applications. This Perspective reviews solution-processed memristors focusing on the reliability of their electrical performance, aiming to increase impact and technology readiness.

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固溶处理忆阻器：性能和可靠性

在信息存储、人工智能密码学和电信领域的应用中，薄膜器件在半导体行业的重要性日益凸显。通过溶液处理方法制造的忆阻器件可以集成到各种大面积基底中，这促使它们在需要柔性、可拉伸、透明和生物兼容器件的应用中得到广泛应用。一些关于溶液处理忆阻器的研究声称其具有卓越的电气性能；然而，在许多情况下，这种说法是基于仅在一个器件上进行的稀缺测量、使用不可靠的测试协议或使用对于目标应用而言过大的器件结构。了解忆阻器结构的可靠性对于避免过高的期望值、吸引对此类技术的潜在投资以及现实地了解其对社会和市场的潜在影响非常重要。在本《视角》中，我们分析了迄今为止哪些经过溶液处理的忆阻器表现出了最高、最可靠的电子性能，而与所使用的材料类型和目标应用无关。对于这一类忆阻器，我们还讨论了开关机制和潜在应用，以及在器件技术方面可能的改进。我们描述了这一领域的前景，旨在提高溶液处理忆阻器的影响力和技术就绪程度。

本文章由计算机程序翻译，如有差异，请以英文原文为准。

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来源期刊

Nature Reviews Materials Materials Science-Biomaterials

CiteScore

119.40

自引率

0.40%

发文量

107

期刊介绍： Nature Reviews Materials is an online-only journal that is published weekly. It covers a wide range of scientific disciplines within materials science. The journal includes Reviews, Perspectives, and Comments. Nature Reviews Materials focuses on various aspects of materials science, including the making, measuring, modelling, and manufacturing of materials. It examines the entire process of materials science, from laboratory discovery to the development of functional devices.