Advancements in MXenes and mechanochemistry: exploring new horizons and future applications

IF 5.2 Q2 MATERIALS SCIENCE, MULTIDISCIPLINARY
Siavash Iravani, Atefeh Zarepour, Ehsan Nazarzadeh Zare, Pooyan Makvandi, Arezoo Khosravi, Rajender S. Varma and Ali Zarrabi
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Abstract

MXenes, a class of two-dimensional (2D) materials derived from transition metal carbides, nitrides, and carbonitrides, have garnered significant attention due to their unique properties and potential applications in various fields, including energy storage, catalysis, and electronics. Mechanochemistry, the study of chemical reactions driven by mechanical forces, offers a novel approach to synthesize and manipulate MXenes, enhancing their properties and expanding their functional applications. This review explores the intersection of MXenes and mechanochemistry, highlighting recent advancements in the mechanochemical synthesis of MXenes and their derivatives. We discuss the mechanisms underlying the mechanochemical processes, including the role of shear forces, ball milling, and other mechanical techniques in facilitating the exfoliation and functionalization of MXenes. Furthermore, we examine the impact of mechanochemical methods on the structural integrity, surface chemistry, and electronic properties of MXenes, which are crucial for their performance in applications such as supercapacitors, batteries, and sensors. This review also addresses the challenges and limitations associated with mechanochemical approaches, including scalability and reproducibility, while proposing future directions for research in this promising field. By integrating mechanochemistry with MXene research, we aim to provide insights into innovative strategies for the development of advanced materials that can meet the demands of next-generation technologies. This synthesis of knowledge not only underscores the versatility of MXenes but also emphasizes the transformative potential of mechanochemistry in materials science.

Abstract Image

MXenes 和机械化学的进展:探索新视野和未来应用
MXenes 是一类由过渡金属碳化物、氮化物和碳氮化物衍生而来的二维(2D)材料,因其独特的性能和在能量存储、催化和电子等多个领域的潜在应用而备受关注。机械化学是一门研究由机械力驱动的化学反应的学科,它为合成和操纵 MXenes 提供了一种新的方法,从而增强了它们的性能并扩大了它们的功能应用。本综述探讨了 MXenes 与机械化学的交叉点,重点介绍了 MXenes 及其衍生物机械化学合成的最新进展。我们讨论了机械化学过程的基本机制,包括剪切力、球磨和其他机械技术在促进二氧化三烯剥离和功能化方面的作用。此外,我们还探讨了机械化学方法对二氧化二烯结构完整性、表面化学性质和电子特性的影响,这些对于二氧化二烯在超级电容器、电池和传感器等应用中的性能至关重要。本综述还探讨了与机械化学方法相关的挑战和局限性,包括可扩展性和可重复性,同时提出了这一前景广阔领域的未来研究方向。通过将机械化学与 MXene 研究相结合,我们旨在为开发先进材料的创新战略提供真知灼见,以满足下一代技术的需求。这种知识的综合不仅强调了二氧化锡的多功能性,而且还强调了机械化学在材料科学中的变革潜力。
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来源期刊
Materials Advances
Materials Advances MATERIALS SCIENCE, MULTIDISCIPLINARY-
CiteScore
7.60
自引率
2.00%
发文量
665
审稿时长
5 weeks
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