Yali Zhang and Junwei
Gu*. A Perspective for Developing Polymer?Based Electromagnetic Interference Shielding Composites. Nano-Micro
Letters, 2022, 14: 89. 2020IF=16.419.(1區材料科學Top期刊,2021中國最具國際影響力學術期刊)
https://doi.org/10.1007/s40820-022-00843-3
Abstract
The rapid development of
aerospace weapons and equipments, wireless base stations and 5G communication
technologies has put forward newer and higher requirements for the
comprehensive performances of polymer-based electromagnetic interference (EMI)
shielding composites. However, most of currently prepared polymer-based EMI
shielding composites are still difficult to combine high performance and multi-functionality.
In response to this, based on the research works of relevant researchers as
well as our research group, three possible directions to break through the
above bottlenecks are proposed, including construction of efficient conductive
networks, optimization of multi-interfaces for lightweight, and multifunction
compatibility design. The future development trends in three directions are
prospected, and it is hoped to provide certain theoretical basis and technical
guidance for the preparation, research and development of polymer-based EMI
shielding composites.
航空航天武器裝備、無線基站和5G通訊技術的飛速發展對電磁干擾(EMI)屏蔽高分子復合材料的綜合性能提出了更新、更高的要求。然而,目前制備的EMI屏蔽高分子復合材料大多仍然難以兼具其高性能和多功能化。針對此,本文基于相關研究者與本課題組前期研究工作的積累,提出了突破上述瓶頸的三個可能方向--構筑高效導電網絡、多界面優化調控實現輕量化以及多功能兼容性設計,并展望了三個方向未來的發展趨勢,希冀為EMI屏蔽高分子復合材料的制備、研究與發展提供一定的理論依據與技術指導。
論文亮點
1. 提出了電磁屏蔽高分子復合材料領域存在的瓶頸問題--目前大多數電磁屏蔽高分子復合材料仍難以兼顧其高性能和多功能化。
2. 提出了突破上述瓶頸的三個可能的方向,包括構筑三維高效導電網絡、多界面優化調控實現輕量化以及多功能兼容性優化設計。
3. 展望了三個可能方向未來的發展趨勢,希冀為電磁屏蔽高分子復合材料的制備、研究與發展提供一定的理論依據與技術指導。