具有有序面内介孔通道的二维MXene-聚合物异质结构用于高性能电容去离子

Two-Dimensional MXene-Polymer Heterostructure with Ordered In-Plane Mesochannels for High-Performance Capacitive Deionization.

作者信息

Li Qian, Xu Xingtao, Guo Jingru, Hill Jonathan P, Xu Haishan, Xiang Luoxing, Li Chen, Yamauchi Yusuke, Mai Yiyong

机构信息

School of Chemistry and Chemical Engineering, Frontiers Science Center for Transformative Molecules, Shanghai Key Laboratory of Electrical Insulation and Thermal Ageing, Shanghai Jiao Tong University, 800 Dongchuan Road, Shanghai, 200240, China.

International Center for Materials Nanoarchitectonics (WPI-MANA), National Institute for Materials Science, 1-1 Namiki, Tsukuba, Ibaraki, 305-0044, Japan.

出版信息

Angew Chem Int Ed Engl. 2021 Dec 13;60(51):26528-26534. doi: 10.1002/anie.202111823. Epub 2021 Nov 8.

DOI:10.1002/anie.202111823

PMID:34748252

Abstract

The application of traditional electrode materials for high-performance capacitive deionization (CDI) has been persistently limited by their low charge-storage capacities, excessive co-ion expulsion and slow salt removal rates. Here we report a bottom-up approach to the preparation of a two-dimensional (2D) Ti C T MXene-polydopamine heterostructure having ordered in-plane mesochannels (denoted as mPDA/MXene). Interfacial self-assembly of mesoporous polydopamine (mPDA) monolayers on MXene nanosheets leads to the mPDA/MXene heterostructure, which exhibits several unique features: (1) MXene undergoes reversible ion intercalation/deintercalation and possesses high conductivity; (2) mPDA layers establish redox capacitive characteristics and Na selectivity, and also help to prevent self-stacking and oxidation of MXene; (3) in-plane mesochannels enable the smooth transport of ions at the internal spaces of this stacked 2D material. When applied as an electrode material for CDI, mPDA/MXene nanosheets exhibit top-level CDI performance and cycling stability compared to those of the so far reported 2D materials. Our study opens an avenue for the rational construction of MXene-organic hybrid heterostructures, and further motivates the development of high-performance CDI electrode materials.

摘要

传统电极材料在高性能电容去离子化（CDI）中的应用一直受到其低电荷存储容量、过多的共离子排出和缓慢的盐分去除速率的限制。在此，我们报告了一种自下而上的方法来制备具有有序面内介孔通道的二维（2D）Ti C T MXene-聚多巴胺异质结构（表示为mPDA/MXene）。介孔聚多巴胺（mPDA）单层在MXene纳米片上的界面自组装导致了mPDA/MXene异质结构，该结构具有几个独特的特征：（1）MXene经历可逆的离子嵌入/脱嵌并具有高导电性；（2）mPDA层建立氧化还原电容特性和Na选择性，并且还有助于防止MXene的自堆叠和氧化；（3）面内介孔通道使离子能够在这种堆叠的二维材料的内部空间中顺利传输。当用作CDI的电极材料时，与迄今为止报道的二维材料相比，mPDA/MXene纳米片表现出顶级的CDI性能和循环稳定性。我们的研究为合理构建MXene-有机混合异质结构开辟了一条途径，并进一步推动了高性能CDI电极材料的发展。

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具有有序面内介孔通道的二维MXene-聚合物异质结构用于高性能电容去离子

Two-Dimensional MXene-Polymer Heterostructure with Ordered In-Plane Mesochannels for High-Performance Capacitive Deionization.

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