在二维二氧杂环烯中掺杂杂原子以实现能量存储/转换应用

Sumanta Sahoo , Rajesh Kumar , Iftikhar Hussain , Kaili Zhang
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摘要

MXenes(无机金属碳化物、氮化物和碳氮化物)是目前二维(2D)家族中一颗冉冉升起的新星。在 2011 年被发现后,最初的研究只集中在原始的 MXenes 上。然而,在过去的几年中,随着对新型双 MXenes、非钛 MXenes 的合成以及 MXenes 的杂原子掺杂的探索,MXene 家族得到了扩展。本综述文章独家概述了当前有关掺杂杂原子的 MXenes 的研究趋势。文章概述了掺杂杂原子的二氧化二烯(主要是钛-二氧化二烯)在能量存储/转换应用方面的最新进展,包括二次电池(锂离子电池、锂-S 电池、Na-S 电池、Na-离子电池、K-离子电池、Zn-离子电池)、超级电容器、电催化等。手稿中还简要概述了各种二维材料的缺陷和掺杂情况。概述了 MXenes 的各种掺杂策略。此外,还简明扼要地讨论了人工智能/机器学习对 MXene 研究的影响。此外,还详细讨论了掺杂 MXenes 的优势。最后,探讨了掺杂 MXenes 的现有挑战和未来前景。预计本综述将为通过掺杂二氧化二烯的杂原子制造先进能源设备开辟新的前景。
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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Heteroatom doping in 2D MXenes for energy storage/conversion applications
MXenes (inorganic metal carbides, nitrides, and carbonitrides) are currently the rising star of two-dimensional (2D) family. After its discovery in 2011, initial research was concentrated on pristine MXenes only. However, in the last few years, the MXene family has been expanded with the exploration of novel double MXenes, synthesis of non-Ti MXenes, and heteroatom doping of MXenes. The current review article delivers an exclusive overview of the current research trends on the heteroatom doping of MXenes. The recent advances in heteroatom doping of MXenes (majorly Ti-MXenes) for energy storage/conversion applications including secondary batteries (Li-ion, Li–S, Na–S, Na-ion, K-ion, Zn-ion batteries), supercapacitors, electrocatalysis, etc. are summarized. A brief overview of the defects as well as doping in various 2D materials is included in the manuscript. Various doping strategies of MXenes are outlined. Moreover, the impact of artificial intelligence/machine learning on MXene research is also concisely discussed. Additionally, the advantages of doping on MXenes are discussed in detail. Lastly, the existing challenges and future prospects of doped MXenes are addressed. It is expected that the current review will open new prospects for the fabrication of advanced energy devices through heteroatom doping of MXenes.
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