Beyond energy harvesting: a review on the critical role of MXene in triboelectric nanogenerator

Energy Materials Pub Date : 2024-04-17 DOI:10.20517/energymater.2023.121

Zequan Zhao, Xia Cao, Ning Wang

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Abstract

In the field of advanced materials and energy harvesting, MXene has played a pivotal role in advancing the development of triboelectric nanogenerators (TENGs). This contribution is notable not only in terms of enhancing the performance of TENGs but also in expanding their application range. A comprehensive review of MXene materials is offered herein to delve into the significant impact of MXene on the growing efficiency of energy harvesting and widening application in areas ranging from energy harvesters to physiochemical sensors to self-powered intelligent systems. We begin with the fundamentals of MXene and TENGs, then highlight how MXene improves TENGs via its integration into the triboelectrification and electrode layers to increase the electronegativity, charge density, and introduce self-healing and stretchability. The discussion then extends to the modifications in MXene that boost the electrical output, stability, and collection efficiency of TENGs. Additionally, the review covers the diverse applications of MXene-based TENGs in extreme environments, respiratory monitoring, and multi-purpose devices, emphasizing its critical role in promoting TENGs to future self-powered intelligent systems.

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超越能量收集：评述 MXene 在三电纳米发电机中的关键作用

在先进材料和能量收集领域，MXene 在推动三电纳米发电机（TENGs）的发展方面发挥了关键作用。这一贡献不仅体现在提高 TENG 的性能方面，还体现在扩大其应用范围方面。本文对 MXene 材料进行了全面综述，深入探讨了 MXene 对提高能量收集效率的重要影响，以及在能量收集器、理化传感器和自供电智能系统等领域的广泛应用。我们首先介绍了 MXene 和 TENG 的基本原理，然后重点介绍了 MXene 如何通过融入三电化层和电极层来提高电负性和电荷密度，并引入自修复和拉伸性，从而改进 TENG。然后，讨论延伸到 MXene 的改性，这些改性提高了 TENG 的电输出、稳定性和收集效率。此外，该综述还涵盖了基于 MXene 的 TENGs 在极端环境、呼吸监测和多用途设备中的各种应用，强调了它在促进 TENGs 成为未来自供电智能系统中的关键作用。

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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Energy Materials

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