3D MXene Architectures for Efficient Energy Storage and Conversion

Li Ke; Liang Meiying; Wang Hao; Wang Xuehang; Huang Yanshan; Coelho Joao; Pinilla Sergio; Zhang Yonglai; Qi Fangwei; Nicolosi Valeria; Xu Yuxi

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3D MXene Architectures for Efficient Energy Storage and Conversion

机译：3D MXEN架构，用于高效的能量存储和转换

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2D transition metal carbides and/or nitrides (MXenes), by virtue of high electrical conductivity, abundant surface functional groups and excellent dispersion in various solvents, are attracting increasing attention and showing competitive performance in energy storage and conversion applications. However, like other 2D materials, MXene nanosheets incline to stack together via van der Waals interactions, which lead to limited number of active sites, sluggish ionic kinetics, and finally ordinary performance of MXene materials/devices. Constructing 2D MXene nanosheets into 3D architectures has been proven to be an effective strategy to reduce restacking, thus providing larger specific surface area, higher porosity, and shorter ion and mass transport distance over normal 1D and 2D structures. In this review, the commonly used strategies for manufacturing 3D MXene architectures (3D MXenes and 3D MXene-based composites) are summarized, such as template, assembly, 3D printing, and other methods. Special attention is also given to the structure-property relationships of 3D MXene architectures and their applications in electrochemical energy storage and conversion, including supercapacitors, rechargeable batteries, and electrocatalysis. Finally, the authors propose a brief perspective on future opportunities and challenges for 3D MXene architectures/devices.

机译：2D过渡金属碳化物和/或氮化物（MxENES），通过高电导率，丰富的表面官能团和各种溶剂的优异分散，正在吸引越来越长的关注并显示储能和转换应用中的竞争性能。然而，与其他2D材料一样，MXENE NANOSHEESS倾斜通过范德华相互作用将其堆叠在一起，这导致有限数量的活性位点，离子动力学，并且最终普通性能的MXENE材料/装置。已被证明将2D MXEN NANOSHES分为3D架构是减少重新包装的有效策略，从而提供较大的比表面积，更高的孔隙率和较短的离子以及较短的离子和较短的离子和质量传输距离在正常的1D和2D结构上。在本文中，概括了制造3D MXEN架构（3D MXENES和3D MXENE基复合材料）的常用策略，例如模板，组装，3D打印和其他方法。特别注意3D MXEN架构的结构 - 性质关系及其在电化学能量存储和转化中的应用，包括超级电容器，可充电电池和电殖分析。最后，作者提出了一篇关于3D MXEN架构/设备的未来机遇和挑战的简要观点。

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来源
《Advanced Functional Materials》 |2020年第47期|2000842.1-2000842.22|共22页
作者
Li Ke; Liang Meiying; Wang Hao; Wang Xuehang; Huang Yanshan; Coelho Joao; Pinilla Sergio; Zhang Yonglai; Qi Fangwei; Nicolosi Valeria; Xu Yuxi;
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作者单位

Westlake Univ Sch Engn Hangzhou 310024 Zhejiang Peoples R China|Westlake Inst Adv Study Inst Adv Technol Hangzhou 310024 Zhejiang Peoples R China|Trinity Coll Dublin Ctr Res Adapt Nanostruct & Nanodevices CRANN Sch Chem Dublin 2 Ireland|Trinity Coll Dublin Adv Mat Bioengn Res Ctr AMBER Dublin 2 Ireland;

Trinity Coll Dublin Ctr Res Adapt Nanostruct & Nanodevices CRANN Sch Chem Dublin 2 Ireland|Trinity Coll Dublin Adv Mat Bioengn Res Ctr AMBER Dublin 2 Ireland;

Nanyang Technol Univ Sch Chem & Biomed Engn 50 Nanyang Ave Singapore 639798 Singapore;

Drexel Univ AJ Drexel Nanomat Inst Philadelphia PA 19104 USA|Drexel Univ Dept Mat Sci & Engn Philadelphia PA 19104 USA;

Shanghai Inst Technol Sch Chem & Environm Engn Shanghai 201418 Peoples R China;

Trinity Coll Dublin Ctr Res Adapt Nanostruct & Nanodevices CRANN Sch Chem Dublin 2 Ireland|Trinity Coll Dublin Adv Mat Bioengn Res Ctr AMBER Dublin 2 Ireland;

Trinity Coll Dublin Ctr Res Adapt Nanostruct & Nanodevices CRANN Sch Chem Dublin 2 Ireland|Trinity Coll Dublin Adv Mat Bioengn Res Ctr AMBER Dublin 2 Ireland;

Westlake Univ Sch Engn Hangzhou 310024 Zhejiang Peoples R China|Westlake Inst Adv Study Inst Adv Technol Hangzhou 310024 Zhejiang Peoples R China;

Jiangxi Univ Sci & Technol Inst Bioaddit Mfg Nanchang 330013 Jiangxi Peoples R China;

Trinity Coll Dublin Ctr Res Adapt Nanostruct & Nanodevices CRANN Sch Chem Dublin 2 Ireland|Trinity Coll Dublin Adv Mat Bioengn Res Ctr AMBER Dublin 2 Ireland;

Westlake Univ Sch Engn Hangzhou 310024 Zhejiang Peoples R China|Westlake Inst Adv Study Inst Adv Technol Hangzhou 310024 Zhejiang Peoples R China;

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正文语种 eng
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关键词
2D materials; 3D architectures; energy storage and conversion; MXene devices; MXene nanosheets; porous materials;

机译：2D材料;3D架构;能量存储和转换;MXENE器件;MXENE NANOSHEELS;多孔材料;

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专利

1. Rationally designed graphene-nanotube 3D architectures with a seamless nodal junction for efficient energy conversion and storage [J] . Yuhua Xue, Yong Ding, Jianbing Niu, Science Advances . 2015,第8期

机译：合理设计的具有无缝节点结的石墨烯-纳米管3D架构，可实现高效的能量转换和存储
2. Rationally designed graphene-nanotube 3D architectures with a seamless nodal junction for efficient energy conversion and storage [J] . Yuhua Xue, Yong Ding, Jianbing Niu, Science Advances . 2015,第8期

机译：合理设计的具有无缝节点结的石墨烯-纳米管3D架构，可实现高效的能量转换和存储
3. 3D Printing of NiCoP/Ti3C2 MXene Architectures for Energy Storage Devices with High Areal and Volumetric Energy Density [J] . Lianghao Yu, Weiping Li, Chaohui Wei, 纳微快报：英文版 . 2020,第010期

机译：NiCoP / Ti3C2 MXene体系结构的3D打印，用于具有高区域和体积能量密度的储能设备
4. (Invited) Theoretical Study on the Energy Storage Mechanism of Transition-Metal-Carbide MXene By Quantum-Classical Hybrid Simulation [C] . Yasunobu Ando Pacific Rim Meeting on Electrochemical and Solid-State Science . 2020

机译：（邀请）量子古典杂交仿真对过渡金属碳化物MXENE储能机理的理论研究
5. MXene-Based Materials for Energy Conversion/Storage and Device Applications: A First-Principles Study [D] . Shao, Yangfan. 2020

机译：基于MXENE的能量转换/存储和设备应用的材料：一项研究
6. Rationally designed graphene-nanotube 3D architectures with a seamless nodal junction for efficient energy conversion and storage [O] . Yuhua Xue, Yong Ding, Jianbing Niu, 2015

机译：合理设计的具有无缝节点结的石墨烯-纳米管3D架构可实现高效的能量转换和存储
7. Rationally designed graphene-nanotube 3D architectures with a seamless nodal junction for efficient energy conversion and storage [O] . Xue, Yuhua, Ding, Yong, Niu, Jianbing, 2015

机译：合理设计的石墨烯 - 纳米管3D架构，具有无缝节点结，可实现高效的能量转换和存储
8. Rationally Designed Graphene-Nanotube 3D Architectures with a Seamless Nodal Junction for Efficient Energy Conversion and Storage. [R] . Xue, Y., Ding, Y., Niu, J., 2015

机译：合理设计的石墨烯 - 纳米管3D架构，具有无缝节点结，可实现高效的能量转换和存储。

3D MXene Architectures for Efficient Energy Storage and Conversion

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