Hybridization of metal-organic frameworks and MXenes: Expanding horizons in supercapacitor applications

IF 15.9 1区 化学 Q1 CHEMISTRY, PHYSICAL
Latisha Gaba , Priya Siwach , Kanika Aggarwal , Sajjan Dahiya , Rajesh Punia , A.S. Maan , Kuldeep Singh , Anil Ohlan
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Abstract

Metal-organic frameworks (MOFs) and MXenes have gained prominence in the queue of advanced material research. Both materials' outstanding physical and chemical characteristics prominently promote their utilization in diverse fields, especially the electrochemical energy storage (EES) domain. The collective contribution of extremely high specific surface area (SSA), customizable pores, and abundant active sites propose MOFs as integral materials for EES devices. However, conventional MOFs endure low conductivity, constraining their utility in practical applications. The development of hybrid materials via integrating MOFs with various conductive materials stands out as an effective approach to improvising MOF's conductivity. MXenes, formulated as two-dimensional (2D) carbides and nitrides of transition metals, fall in the category of the latest 2D materials. MXenes possess extensive structural diversity, impressive conductivity, and rich surface chemical characteristics. The electrochemical characteristics of MOF@MXene hybrids outperform MOFs and MXenes individually, credited to the synergistic effect of both components. Additionally, the MOF derivatives coupled with MXene, exhibiting unique morphologies, demonstrate outstanding electrochemical performance. The important attributes of MOF@MXene hybrids, including the various synthesis protocols, have been summarized in this review. This review delves into the architectural analysis of both MOFs and MXenes, along with their advanced hybrids. Furthermore, the comprehensive survey of the latest advancements in MOF@MXene hybrids as electroactive material for supercapacitors (SCs) is the prime objective of this review. The review concludes with an elaborate discussion of the current challenges faced and the future outlooks for optimizing MOF@MXene composites.

Abstract Image

金属有机框架与 MXenes 的杂化:拓展超级电容器应用领域。
在先进材料研究领域,金属有机框架(MOFs)和二氧化二烯(MXenes)的地位日益突出。这两种材料出色的物理和化学特性促进了它们在不同领域的应用,尤其是在电化学储能(EES)领域。MOFs 具有极高的比表面积(SSA)、可定制的孔隙和丰富的活性位点,因此被认为是 EES 设备不可或缺的材料。然而,传统的 MOFs 传导性较低,限制了其在实际应用中的效用。通过将 MOFs 与各种导电材料相结合来开发混合材料,是提高 MOFs 导电性的有效方法。MXenes 是过渡金属的二维碳化物和氮化物,属于最新的二维材料。MXenes 具有广泛的结构多样性、惊人的导电性和丰富的表面化学特性。MOF@MXene 混合物的电化学特性优于单独的 MOF 和 MXenes,这归功于两种成分的协同效应。此外,与 MXene 相结合的 MOF 衍生物呈现出独特的形态,具有出色的电化学性能。本综述总结了 MOF@MXene 杂化物的重要特性,包括各种合成方案。本综述深入探讨了 MOFs 和 MXenes 及其先进杂化物的结构分析。此外,本综述的首要目标是全面考察 MOF@MXene 杂化物作为超级电容器 (SC) 电活性材料的最新进展。综述最后详细讨论了当前面临的挑战以及优化 MOF@MXene 复合材料的未来展望。
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来源期刊
CiteScore
28.50
自引率
2.60%
发文量
175
审稿时长
31 days
期刊介绍: "Advances in Colloid and Interface Science" is an international journal that focuses on experimental and theoretical developments in interfacial and colloidal phenomena. The journal covers a wide range of disciplines including biology, chemistry, physics, and technology. The journal accepts review articles on any topic within the scope of colloid and interface science. These articles should provide an in-depth analysis of the subject matter, offering a critical review of the current state of the field. The author's informed opinion on the topic should also be included. The manuscript should compare and contrast ideas found in the reviewed literature and address the limitations of these ideas. Typically, the articles published in this journal are written by recognized experts in the field.
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