Freestanding MXene‐based macroforms for electrochemical energy storage applications

Qiongqiong Lu; Congcong Liu; Yirong Zhao; Wengao Pan; Kun Xie; Pengfei Yue; Guoshang Zhang; Ahmad Omar; Lixiang Liu; Minghao Yu; Daria Mikhailova

doi:10.1002/sus2.151

SusMat (Aug 2023)

Freestanding MXene‐based macroforms for electrochemical energy storage applications

Qiongqiong Lu,
Congcong Liu,
Yirong Zhao,
Wengao Pan,
Kun Xie,
Pengfei Yue,
Guoshang Zhang,
Ahmad Omar,
Lixiang Liu,
Minghao Yu,
Daria Mikhailova

Affiliations

Qiongqiong Lu: Institute of Materials Henan Key Laboratory of Advanced Conductor Materials Henan Academy of Sciences Zhengzhou Henan China
Congcong Liu: Leibniz Institute for Solid State and Materials Research (IFW) Dresden e.V. Dresden Germany
Yirong Zhao: Leibniz Institute for Solid State and Materials Research (IFW) Dresden e.V. Dresden Germany
Wengao Pan: Institute of Materials Henan Key Laboratory of Advanced Conductor Materials Henan Academy of Sciences Zhengzhou Henan China
Kun Xie: Institute of Materials Henan Key Laboratory of Advanced Conductor Materials Henan Academy of Sciences Zhengzhou Henan China
Pengfei Yue: Institute of Materials Henan Key Laboratory of Advanced Conductor Materials Henan Academy of Sciences Zhengzhou Henan China
Guoshang Zhang: Institute of Materials Henan Key Laboratory of Advanced Conductor Materials Henan Academy of Sciences Zhengzhou Henan China
Ahmad Omar: Leibniz Institute for Solid State and Materials Research (IFW) Dresden e.V. Dresden Germany
Lixiang Liu: School of Engineering Westlake University Hangzhou Zhejiang China
Minghao Yu: Faculty of Chemistry and Food Chemistry & Center for Advancing Electronics Dresden Technische Universität Dresden Dresden Germany
Daria Mikhailova: Leibniz Institute for Solid State and Materials Research (IFW) Dresden e.V. Dresden Germany

DOI: https://doi.org/10.1002/sus2.151
Journal volume & issue: Vol. 3, no. 4
pp. 471 – 497

Abstract

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Abstract Freestanding MXene‐based macroforms have gained significant attention as versatile components in electrochemical energy storage applications owing to their interconnected conductive network, strong mechanical strength, and customizable surface chemistries derived from MXene nanosheets. This comprehensive review article encompasses key aspects related to the synthesis of MXene nanosheets, strategies for structure design and surface medication, surface modification, and the diverse fabrication methods employed to create freestanding MXene‐based macroform architectures. The review also delves into the recent advancements in utilizing freestanding MXene macroforms for electrochemical energy storage applications, offering a detailed discussion on the significant progress achieved thus far. Notably, the correlation between the macroform's structural attributes and its performance characteristics is thoroughly explored, shedding light on the critical factors influencing efficiency and durability. Despite the remarkable development, the review also highlights the existing challenges and presents future perspectives for freestanding MXene‐based macroforms in the realms of high‐performance energy storage devices. By addressing these challenges and leveraging emerging opportunities, the potential of freestanding MXene‐based macroforms can be harnessed to enable groundbreaking advancements in the field of energy storage.

Published in SusMat

ISSN: 2766-8479 (Print); 2692-4552 (Online)
Publisher: Wiley
Country of publisher: Australia
LCC subjects: Technology: Electrical engineering. Electronics. Nuclear engineering: Materials of engineering and construction. Mechanics of materials; Technology: Engineering (General). Civil engineering (General): Environmental engineering
Website: https://onlinelibrary.wiley.com/journal/26924552

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