系统研究了一种在水热条件下制备三维石墨烯的新方法,建立了最佳的稳定制备工艺。该方法不需要添加化学交联剂,简单、可控性高。经X射线衍射、扫描电镜、视频接触角测量仪,拉曼光谱检测分析表明,制备的三维石墨烯样品具有密度低、孔隙率、机械强度及吸附率高的特点,与其它方法相比,此制备工艺具有较好的稳定性和重复性。制备的三维石墨烯有望应用在超级电容器、储氢材料、催化剂和环境保护等方面。
Three-dimensional graphene (3D)has attracted increasing attention due to its excellent performance such as light weight,high porosity,large specific surface area and high mechanical strength.In this paper,we report a simple and controllable method for the preparation of 3D architectures of graphene by the hydrothermal synthesis at 180 ℃.There were no chemical crosslinking agents are needed during the synthesis process.The as-prepared 3D graphene were characterized by use of X-ray diffraction,scanning electronic microscope,video con-tact angle measuring instrument and Raman spectroscope.The results show that the 3D graphene architectures have low densities,high porosity,high mechanical properties and high efficient absorption,compared with oth-er methods,this method has shown better stability and reproducibility.The prepared 3D graphene can be expec-ted to be used in the fields of supercapacitors,hydrogen storage,catalysts and environmental protection etc.
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