Reversible Constrained Dissociation and Reassembly of MXene Films

Xuefeng Zhang; Xudong Liu; Qingqiang Liu; Yufa Feng; Si Qiu; Ting Wang; Huayu Xu; Hao Li; Liang Yin; Hui Kang; Zhimin Fan

doi:10.1002/advs.202309171

Advanced Science (Jun 2024)

Reversible Constrained Dissociation and Reassembly of MXene Films

Xuefeng Zhang,
Xudong Liu,
Qingqiang Liu,
Yufa Feng,
Si Qiu,
Ting Wang,
Huayu Xu,
Hao Li,
Liang Yin,
Hui Kang,
Zhimin Fan

Affiliations

Xuefeng Zhang: School of chemistry and Materials Engineering Guangdong Provincial Key Laboratory for Electronic Functional Materials and Devices Huizhou University Huizhou 516007 China
Xudong Liu: School of Materials Science and Engineering Harbin Institute of Technology Harbin 150001 China
Qingqiang Liu: School of chemistry and Materials Engineering Guangdong Provincial Key Laboratory for Electronic Functional Materials and Devices Huizhou University Huizhou 516007 China
Yufa Feng: School of chemistry and Materials Engineering Guangdong Provincial Key Laboratory for Electronic Functional Materials and Devices Huizhou University Huizhou 516007 China
Si Qiu: School of chemistry and Materials Engineering Guangdong Provincial Key Laboratory for Electronic Functional Materials and Devices Huizhou University Huizhou 516007 China
Ting Wang: School of chemistry and Materials Engineering Guangdong Provincial Key Laboratory for Electronic Functional Materials and Devices Huizhou University Huizhou 516007 China
Huayu Xu: School of chemistry and Materials Engineering Guangdong Provincial Key Laboratory for Electronic Functional Materials and Devices Huizhou University Huizhou 516007 China
Hao Li: School of chemistry and Materials Engineering Guangdong Provincial Key Laboratory for Electronic Functional Materials and Devices Huizhou University Huizhou 516007 China
Liang Yin: MIIT Key Laboratory of Critical Materials Technology for New Energy Conversion and Storage School of Chemistry and Chemical Engineering Harbin Institute of Technology Harbin 150001 China
Hui Kang: Advanced Materials Thrust The Hong Kong University of Science and Technology (Guangzhou) Guangzhou 510000 China
Zhimin Fan: School of Materials Science and Engineering Harbin Institute of Technology Harbin 150001 China

DOI: https://doi.org/10.1002/advs.202309171
Journal volume & issue: Vol. 11, no. 23
pp. n/a – n/a

Abstract

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Abstract Enabling materials to undergo reversible dynamic transformations akin to the behaviors of living organisms represents a critical challenge in the field of material assembly. The pursuit of such capabilities using conventional materials has largely been met with limited success. Herein, the discovery of reversible constrained dissociation and reconfiguration in MXene films, offering an effective solution to overcome this obstacle is reported. Specifically, MXene films permit rapid intercalation of water molecules between their distinctive layers, resulting in a significant expansion and exhibiting confined dissociation within constrained spaces. Meanwhile, the process of capillary compression driven by water evaporation reinstates the dissociated MXene film to its original compact state. Further, the adhesive properties emerging from the confined disassociation of MXene films can spontaneously induce fusion between separate films. Utilizing this attribute, complex structures of MXene films can be effortlessly foamed and interlayer porosity precisely controlled, using only water as the inducer. Additionally, a parallel phenomenon has been identified in graphene oxide films. This work not only provides fresh insights into the microscopic mechanisms of 2D materials such as MXene but also paves a transformative path for their macroscopic assembly applications in the future.

Published in Advanced Science

ISSN: 2198-3844 (Online)
Publisher: Wiley
Country of publisher: Germany
LCC subjects: Science
Website: https://onlinelibrary.wiley.com/journal/21983844

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