Synthesis and applications of double metal MXenes: A review

Asieh Akhoondi, Mitra Ebrahimi Nejad, Mohammad Yusuf, Tejraj M. Aminabhavi, Khalid Mujasam Batoo, Sami Rtimi
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Abstract

MXenes are known as a new type of two-dimensional layered materials that are composed of carbide, nitride, or carbonitride of transition metals. In the recent discovery of a new class of MXenes, two transition metals occupy the metal site, called double transition metal MXenes (DTM). These multilayer composites are of interest due to their attractive features such as high ion transport, extensive surface area, and biocompatibility. Some computational methods are used to predict the properties and performance of bimetallic carbonitrides. The most important feature of this category of materials is the stability and amount of formation energy, which directly affects the choice of material in various applications. Density functional theory (DFT) calculations are very beneficial to estimate the thermodynamic stability of DTM MXenes. Of course, proper surface modification with stable terminals is needed to overcome the limitations of DTM MXenes. In this review, the electrochemical, metallic, and magnetic properties of DTM MXene have been presented first. In the following, preparation methods are summarized according to the latest published findings. Then, various applications including hydrogen evolution reactions, anode materials in lithium and sodium batteries, nanomagnetic materials, and special applications have been investigated. Finally, more challenges, prospects, and suggestions for the development of two-dimensional DTM MXenes have been presented.
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双金属MXenes的合成及应用综述
MXenes是一种由过渡金属的碳化物、氮化物或碳氮化物组成的新型二维层状材料。在最近发现的一类新的MXenes中,两种过渡金属占据了金属位,称为双过渡金属MXenes (DTM)。这些多层复合材料由于其高离子传输、广泛的表面积和生物相容性等吸引人的特性而引起了人们的兴趣。采用一些计算方法对双金属碳氮化物的性能进行了预测。这类材料最重要的特点是稳定性和形成能量的多少,这直接影响到各种应用中材料的选择。密度泛函理论(DFT)计算有助于估计DTM MXenes的热力学稳定性。当然,为了克服DTM MXenes的局限性,需要适当的表面修饰和稳定的终端。本文首先介绍了DTM MXene的电化学、金属和磁性能。下面,根据最新发表的研究结果对制备方法进行总结。然后,研究了析氢反应、锂钠电池负极材料、纳米磁性材料和特殊应用等方面的应用。最后,对二维DTM MXenes的发展提出了挑战、展望和建议。
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