水电解质中 MXenes 电荷存储的机器学习辅助调查。

IF 10.7 2区材料科学 Q1 CHEMISTRY, PHYSICAL

Small Methods Pub Date : 2025-01-01 Epub Date: 2024-03-26 DOI:10.1002/smtd.202400062

Kosuke Kawai, Yasunobu Ando, Masashi Okubo

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引用次数: 0

摘要

伪电容因其快速的化学吸附和大量的电荷转移而具有高功率密度和高能量密度。二维过渡金属碳化物/氮化物（MXenes）是一类新兴的伪电容电极材料。然而，主导 MXenes 物理和化学性质的因素相互关联，这给定量评估其鉴别重要性带来了挑战。本研究从这一角度出发，利用机器学习技术对有关水性电解质中 MXene 电极比电容的文献数据进行了全面调查和分析。MXene 电极的比电容与其层间距有很强的相关性，层间隙中的封闭 H2O 应在电荷存储机制中发挥关键作用。基于数据驱动方法获得的原子洞察力，对 MXene 电极的电化学行为进行了概述。

本文章由计算机程序翻译，如有差异，请以英文原文为准。

Machine Learning-Assisted Survey on Charge Storage of MXenes in Aqueous Electrolytes.

查看原文本刊更多论文

Machine Learning-Assisted Survey on Charge Storage of MXenes in Aqueous Electrolytes.

Pseudocapacitance is capable of both high power and energy densities owing to its fast chemical adsorption with substantial charge transfer. 2D transition-metal carbides/nitrides (MXenes) are an emerging class of pseudocapacitive electrode materials. However, the factors that dominate the physical and chemical properties of MXenes are intercorrelated with each other, giving rise to challenges in the quantitative assessment of their discriminating importance. In this perspective, literature data on the specific capacitance of MXene electrodes in aqueous electrolytes is comprehensively surveyed and analyzed using machine-learning techniques. The specific capacitance of MXene electrodes shows strong dependency on their interlayer spacing, where confined H₂O in the interlayer space should play a key role in the charge storage mechanism. The electrochemical behavior of MXene electrodes is overviewed based on atomistic insights obtained from data-driven approaches.

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来源期刊

Small Methods Materials Science-General Materials Science

CiteScore

17.40

自引率

1.60%

发文量

347

期刊介绍： Small Methods is a multidisciplinary journal that publishes groundbreaking research on methods relevant to nano- and microscale research. It welcomes contributions from the fields of materials science, biomedical science, chemistry, and physics, showcasing the latest advancements in experimental techniques. With a notable 2022 Impact Factor of 12.4 (Journal Citation Reports, Clarivate Analytics, 2023), Small Methods is recognized for its significant impact on the scientific community. The online ISSN for Small Methods is 2366-9608.