受贻贝启发的高度取向TiCT MXene薄膜，具有机械强度和环境稳定性的协同增强。

Mussel Inspired Highly Aligned TiCT MXene Film with Synergistic Enhancement of Mechanical Strength and Ambient Stability.

作者信息

Lee Gang San, Yun Taeyeong, Kim Hyerim, Kim In Ho, Choi Jungwoo, Lee Sun Hwa, Lee Ho Jin, Hwang Ho Seong, Kim Jin Goo, Kim Dae-Won, Lee Hyuck Mo, Koo Chong Min, Kim Sang Ouk

机构信息

National Creative Research Initiative Center for Multi-dimensional Directed Nanoscale Assembly, Department of Materials Science and Engineering, KAIST Institute for Nanocentury, KAIST, Daejeon 34141, Republic of Korea.

Materials Architecturing Research Centre, Korea Institute of Science and Technology (KIST), Seoul 02792, Republic of Korea.

出版信息

ACS Nano. 2020 Sep 22;14(9):11722-11732. doi: 10.1021/acsnano.0c04411. Epub 2020 Sep 10.

DOI:10.1021/acsnano.0c04411

PMID:32870655

Abstract

Two-dimensional (2D) MXene has shown enormous potential in scientific fields, including energy storage and electromagnetic interference (EMI) shielding. Unfortunately, MXene-based material structures generally suffer from mechanical fragility and vulnerability to oxidation. Herein, mussel-inspired dopamine successfully addresses those weaknesses by improving interflake interaction and ordering in MXene assembled films. Dopamine undergoes polymerization and binding at MXene flake surfaces by spontaneous interfacial charge transfer, yielding an ultrathin adhesive layer. Resultant nanocomposites with highly aligned tight layer structures achieve approximately seven times enhanced tensile strength with a simultaneous increase of elongation. Ambient stability of MXene films is also greatly improved by the effective screening of oxygen and moisture. Interestingly, angstrom thick polydopamine further promotes the innate high electrical conductivity and excellent EMI shielding properties of MXene films. This synergistic concurrent enhancement of physical properties proposes MXene/polydopamine hybrids as a general platform for MXene based reliable applications.

摘要

二维（2D）MXene在包括能量存储和电磁干扰（EMI）屏蔽在内的科学领域已展现出巨大潜力。不幸的是，基于MXene的材料结构通常存在机械脆性和易氧化的问题。在此，受贻贝启发的多巴胺通过改善MXene组装膜中的片层间相互作用和有序性成功解决了这些弱点。多巴胺通过自发的界面电荷转移在MXene薄片表面发生聚合和结合，形成超薄粘合剂层。所得具有高度排列紧密层结构的纳米复合材料实现了约七倍的拉伸强度增强，同时伸长率增加。通过有效屏蔽氧气和水分，MXene膜的环境稳定性也得到了极大改善。有趣的是，埃级厚度的聚多巴胺进一步提升了MXene膜固有的高电导率和优异的EMI屏蔽性能。这种物理性能的协同同时增强表明MXene/聚多巴胺杂化物是基于MXene的可靠应用的通用平台。

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受贻贝启发的高度取向TiCT MXene薄膜，具有机械强度和环境稳定性的协同增强。

Mussel Inspired Highly Aligned TiCT MXene Film with Synergistic Enhancement of Mechanical Strength and Ambient Stability.

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