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Recent Progress in 3D Printing of 2D Material‐Based Macrostructures
Advanced Materials Technologies ( IF 6.4 ) Pub Date : 2020-06-15 , DOI: 10.1002/admt.201901066
Rui Yang 1 , Jingzhuo Zhou 1 , Chuang Yang 1 , Ling Qiu 1 , Huiming Cheng 1, 2
Affiliation  

2D materials have a range of unique properties and are promising building blocks for the fabrication of macroscopic materials for many applications ranging from flexible electronics to energy storage devices. The development of effective methods to fabricate 2D material‐based macroscopic materials with designed structures is the key to enabling high performance. Lately, 3D printing has emerged as a new technique to assemble such materials. Compared to conventional fabrication methods, 3D printing techniques have a high degree of customization of the structure with a broad range of domain sizes from nanometers to centimeters, and thereby give the resulting products additional structure‐related functionalities. Recent advances in the fabrication of 2D material‐based macrostructures using 3D printing techniques and their uses in different fields are reviewed. Challenges and opportunities for the future development of the topic are also discussed.

中文翻译:

基于2D材质的宏观结构的3D打印的最新进展

2D材料具有一系列独特的性能,是制造宏观材料的有前途的基石,这些材料可用于从柔性电子到能量存储设备的许多应用。开发具有设计结构的基于二维材料的宏观材料的有效方法的开发是实现高性能的关键。最近,3D打印已成为一种组装此类材料的新技术。与传统的制造方法相比,3D打印技术具有高度定制化的结构,具有从纳米到厘米的宽范围尺寸,从而为最终产品提供了与结构相关的附加功能。回顾了使用3D打印技术制造基于2D材料的宏观结构的最新进展及其在不同领域的用途。还讨论了该主题未来发展的挑战和机遇。
更新日期:2020-06-15
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