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Functional Three-Dimensional Graphene/Polymer Composites
ACS Nano ( IF 15.8 ) Pub Date : 2016-07-19 00:00:00 , DOI: 10.1021/acsnano.6b03349 Meng Wang 1, 2 , Xidong Duan 3 , Yuxi Xu 1 , Xiangfeng Duan
ACS Nano ( IF 15.8 ) Pub Date : 2016-07-19 00:00:00 , DOI: 10.1021/acsnano.6b03349 Meng Wang 1, 2 , Xidong Duan 3 , Yuxi Xu 1 , Xiangfeng Duan
Affiliation
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Integration of graphene with polymers to construct three-dimensional porous graphene/polymer composites (3DGPCs) has attracted considerable attention in the past few years for both fundamental studies and diverse technological applications. With the broad diversity in molecular structures of graphene and polymers via rich chemical routes, a number of 3DGPCs have been developed with unique structural, electrical, and mechanical properties, chemical tenability, and attractive functions, which greatly expands the research horizon of graphene-based composites. In particular, the properties and functions of the 3DGPCs can be readily tuned by precisely controlling the hierarchical porosity in the 3D graphene architecture as well as the intricate synergistic interactions between graphene and polymers. In this paper, we review the recent progress in 3DGPCs, including their synthetic strategies and potential applications in environmental protection, energy storage, sensors, and conducting composites. Lastly, we will conclude with a brief perspective on the challenges and future opportunities.
中文翻译:
功能性三维石墨烯/聚合物复合材料
在过去的几年中,石墨烯与聚合物的集成以构建三维多孔石墨烯/聚合物复合材料(3DGPC),无论是基础研究还是各种技术应用,都引起了相当大的关注。在石墨烯和聚合物的分子结构的广泛多样性通过凭借丰富的化学路线,已经开发出了许多具有独特的结构,电气和机械性能,化学稳定性和吸引人的功能的3DGPC,这极大地拓宽了石墨烯基复合材料的研究范围。特别是,通过精确控制3D石墨烯架构中的分层孔隙率以及石墨烯与聚合物之间复杂的协同相互作用,可以轻松地调整3DGPC的特性和功能。在本文中,我们回顾了3DGPC的最新进展,包括3DGPC的合成策略及其在环境保护,储能,传感器和导电复合材料中的潜在应用。最后,我们将以简短的视角总结挑战和未来的机会。
更新日期:2016-07-19
中文翻译:
功能性三维石墨烯/聚合物复合材料
在过去的几年中,石墨烯与聚合物的集成以构建三维多孔石墨烯/聚合物复合材料(3DGPC),无论是基础研究还是各种技术应用,都引起了相当大的关注。在石墨烯和聚合物的分子结构的广泛多样性通过凭借丰富的化学路线,已经开发出了许多具有独特的结构,电气和机械性能,化学稳定性和吸引人的功能的3DGPC,这极大地拓宽了石墨烯基复合材料的研究范围。特别是,通过精确控制3D石墨烯架构中的分层孔隙率以及石墨烯与聚合物之间复杂的协同相互作用,可以轻松地调整3DGPC的特性和功能。在本文中,我们回顾了3DGPC的最新进展,包括3DGPC的合成策略及其在环境保护,储能,传感器和导电复合材料中的潜在应用。最后,我们将以简短的视角总结挑战和未来的机会。
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